Curriculum Vitae Andrew C. Hillier - College of Engineering€¦ · Curriculum Vitae Andrew C....

Curriculum Vitae Andrew C. Hillier

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ANDREW C. HILLIER

Professor and Reginald R. Baxter Endowed Department Chair Department of Chemical and Biological Engineering, Iowa State University

2114 Sweeney Hall, 618 Bissell Road, Ames, IA 50011 Tel: 515-294-3678, Fax: 515-294-2689, E-mail: [email protected]

EDUCATION 1996 Postdoctoral Fellow, Department of Chemistry and Biochemistry (Allen J. Bard,

advisor), University of Texas, Austin, TX. 1995 Ph.D., Chemical Engineering (GPA: 3.95/4.00, Michael D. Ward, advisor), University of

Minnesota, Minneapolis, MN. 1990 B.S., Chemical Engineering (GPA: 3.94/4.00, Highest Distinction, Summa Cum Laude,

University Honors Program), University of Nebraska, Lincoln, NE. PROFESSIONAL AND ACADEMIC APPOINTMENTS 2016-present Reginald R. Baxter Endowed Department Chair, Department of Chemical and Biological

Engineering, Iowa State University, Ames, IA 2013-present Department Chair, Department of Chemical and Biological Engineering, Iowa State

University, Ames, IA 2013-2016 Wilkinson Professor of Interdisciplinary Engineering, Iowa State University, Ames, IA 2010-present Faculty Associate, Division of Materials Sciences and Engineering, US DOE Ames

Laboratory, Ames, IA 2010-2013 Associate Department Chair, Department of Chemical and Biological Engineering, Iowa

State University, Ames, IA 2010-present Professor, Department of Chemical and Biological Engineering, Iowa State University,

Ames, IA 2003-2010 Associate Professor, Department of Chemical & Biological Engineering, Iowa State

University, Ames, IA. 2003-2009 Associate Professor (by courtesy), Department of Chemistry, Iowa State University,

Ames, IA 2002-2003 Associate Professor (with tenure), Department of Chemical Engineering, University of

Virginia, Charlottesville, VA. 1996-2002 Assistant Professor, Department of Chemical Engineering, University of Virginia,

Charlottesville, VA.


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1995-96 Postdoctoral Fellow, Department of Chemistry and Biochemistry (Allen J. Bard, advisor), University of Texas, Austin, TX.

1990-95 Graduate Research Assistant, Department of Chemical Engineering and Materials

Science, University of Minnesota (Michael D. Ward, advisor) 1989-90 Undergraduate Research Assistant, Department of Chemical Engineering, University of

Nebraska. 1988-90 Laboratory Associate, Nebraska Department of Environmental Control, Laboratory

Services, Lincoln, NE. ADMINISTRATIVE AND LEADERSHIP EXPERIENCE AND ACCOMPLISHMENTS Department Chair, Department of Chemical and Biological Engineering, Iowa State University (2013-present) • Provided vision, leadership, and supervision for a large chemical engineering program with 30

faculty, 10 staff, up to 800 undergraduates and 90 graduate students. • Managed annual departmental budget and expenditures approaching $6M and supervised annual

departmental research expenditures of $9M. • Hired 10 new faculty and successfully mentored 8 faculty through promotion and tenure • Led major departmental fundraising efforts, including planning and hosting of department’s

centennial celebration, developed newly endowed faculty chairs and professorships, identified gifts for new graduate fellowships, solicited undergraduate scholarships, garnered funds for building renovations, and cultivated relationships with alumni and industry to enhance fundraising efforts and initiatives. During time as chair, department’s gift assets grew from $6.5M to over $17M with sustained giving to department reaching an average $2.8M per year.

• Created departmental Strategic Plan in collaboration with faculty and staff to serve as vision for the department and to establish action plans to grow and enhance the quality of education and research within department, enhance collaborations with colleagues and industry, and increase the exposure and impact of the program.

• Successfully managed significant enrollment growth reaching a record high of 820 undergraduate students in 2015-16 and developed departmental strategy to support a 60% increase in size of department’s graduate enrollment to an all-time high of 90 students.

• Led major building renovations, including design and construction of new computer labs, research facilities, administrative office suite, and student collaboration spaces.

• Developed department-wide shared instrumentation laboratory facilities, including renovation of lab space, purchase and installation of various analytical and materials analysis instrumentation, and creation of shared facilities guidelines and processes.

• Created departmental organizational structure utilizing operations manager to facilitate enhanced faculty and staff productivity, improve service to students, and increase professional development opportunities for staff and faculty.

• Worked collaboratively and proactively with departmental faculty and staff, colleagues in other engineering departments, and college/university administration to achieve missions and goals of department/college/university.

• Served on various departmental, college, and university committees, including faculty and chair search committees, honors and awards committees, development committee and scholarship selection committee.


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Program Evaluator (PEV), Engineering Accreditation Commission (EAC), ABET (2017-present) • Completed program evaluator training under Engineering Accreditation Commission as

representative of the American Institute of Chemical Engineers for accreditation of chemical engineering programs.

• Performed program accreditation and site visits on annual accreditation cycle for chemical engineering programs.

Associate Department Chair, Department of Chemical and Biological Engineering, Iowa State University (2010-2013) • Supervised undergraduate program, including serving as chair of curriculum committee with

responsibilities that included catalog updates, course additions/changes, managing student petitions, revising undergraduate handbook, and serving on college of engineering curriculum committee.

• Managed course scheduling, faculty teaching assignments, graduate student teaching assistantships, and undergraduate grader recruiting and supervision.

• Assisted department chair with annual faculty performance evaluations and reviews. • Performed departmental assessment of faculty teaching load and student performance, created and

collected surveys from students and alumni related to program impact and improvement. • Led departmental accreditation efforts, including collecting and analyzing student assessments,

supervising continuous improvement process, and writing self-study document for 2012 ABET accreditation review.

• Served on various college and university committees, including internal review panels, ABET committee, faculty search committees, strategic planning and governance committees, and centennial committee.

Elected Officer (Secretary-2 terms, Treasurer, Member at Large): Physical and Electroanalytical Division, The Electrochemical Society (2010 – Present). • Assisted with operations of division, including symposium planning, budgeting, award selections,

student travel grants, division newsletter, communications with division members, representing division to society.

• Served as division representative on advisory board of The Electrochemical Society’s publication INTERFACE

• Served as division representative on Interdisciplinary Science & Technology Subcommittee, 2015-18 Faculty Senator (2008-2011) and member of Faculty Senate Governance Council (2009): Faculty Senate, Iowa State University, 2008-2011. • Served as representative of Department of Chemical and Biological Engineering on Iowa State

University’s Faculty senate. Served as member of Engineering Caucus. Participated in review and update of Faculty Handbook, new program adoption, promotion and tenure updates, budget discussions and overall university governance.

• Served on Faculty Senate Governance Council. Reviewed proposals and updates to faculty governance and policies/procedures related to the Faculty Handbook.


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Director: W.M. Keck Laboratory for High Throughput and Atom-Scale Analysis, Iowa State University, 2006 – 2015. • Led initiative to secure >$2M in funding to create new shared experimental laboratory facility with

capabilities to support high resolution imaging and combinatorial sample fabrication and analysis. • Served as PI for $1.6 M grant from W.M. Keck Foundation to fund purchase of atom probe

microscope to serve as core instrument in laboratory. • Managed lab operations, including supervision of laboratory staff and student users, establishment of

user fees and billing structure, maintenance and upkeep of facilities and instruments, and oversight of laboratory operations.

Executive Committee and Faculty Affiliate: Institute for Combinatorial Discovery (ICD), Iowa State University, 2003 – 2012. • Served on executive committee for research institute in combinatorial discovery involving numerous

research groups at Iowa State University in departments of Physics, Chemistry, Chemical and Biological Engineering, Materials Science and Engineering, and Mechanical Engineering.

• Assisted in planning and preparation of numerous multi-investigator proposals to National Science Foundation, Carver Trust, W.M. Keck Foundation, Department of Energy, and NIST.

HONORS AND AWARDS Received as Faculty Member Reginald R. Baxter Endowed Department Chair, Iowa State University, 2016.

Wilkinson Professor of Interdisciplinary Engineering, Iowa State University, 2013.

Outstanding Teacher Award, AIChE Student Chapter, Department of Chemical and Biological

Engineering, Iowa State University, 2009, 2010.

ISU Engineering Student Council Leadership Award, Iowa State University, 2005. Memminger Faculty Fellow in Chemical Engineering, University of Virginia, 2003. Charles N. Reilley Young Investigator Award, Society for Electroanalytical Chemistry (SEAC),

2002. Young Investigator Award (ONR-YIP), Office of Naval Research, 2000.

University Teaching Fellow (UTF), University of Virginia, 1999.

CAREER Award, National Science Foundation, 1999.

Young Electrochemical Scanning Probe Microscopist Award, Molecular Imaging, Inc., 1997.

New Faculty Award, Camille and Henry Dreyfus Foundation, 1996.


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Received as Graduate Student University of Minnesota - NSF Center for Interfacial Engineering Fellowship, Upjohn Fellowship, Electrochemical Society (ECS) Energy Research Summer Fellowship, American Electroplaters and Surface Finishers Society (AESF) Summer Research Fellowship, NSF Graduate Fellowship – Honorable Mention. Received as Undergraduate Student University of Nebraska - Highest Distinction, University Honors Program, Outstanding Chemical Engineer - American Institute of Chemists, Outstanding Senior Chemical Engineer, AESF Undergraduate Scholarship, F.E. and O. Johnson Scholarship, R.L. Hazard Scholarship, Sigma Tau Scholarship, U.S. Harkson Scholarship, University of Nebraska-Lincoln David Scholarship, Sandoz Chemistry Scholarship. RESEARCH INTERESTS AND EXPERTISE

• Electrochemistry and Electrochemical Engineering

• Optical Nanostructures, Plasmonics, and Photonics

• Surface and Colloid Chemistry

• In-Situ Imaging and Surface Characterization with Scanning Probe Microscopy

• Thin Film Design, Fabrication and Characterization

• Numerical Modeling of Chemical and Electrochemical Systems

• Combinatorial Materials Synthesis and High Throughput Screening Methods

• Fabrication and Characterization of Electro-Catalysts

• Synthesis and Characterization of Polymer and Nanostructured Materials

RESEARCH GRANTS AND CONTRACTS ($14.4M total, $4.3M as PI) Investigators: S. Mallapragada (PI), A.C. Hillier, M. Nilsen-Hamilton, A. Travesset, D. Vaknin, T. Koschny. T. Prozorov Title of Grant: Bioinspired Metamaterials Granting Agency: Department of Energy – Ames Laboratory Dates of beginning and end of grant: 10/01/2018 – 9/30/2021 Total dollar amount of grant and dollar amount allocated to this candidate: $3,000,000/$300,000 Role or responsibilities of the candidate: co-PI Investigators: M. Lamm (PI) and A.C. Hillier Title of Grant: REU Site: Biological Materials and Processes (BioMaP) Granting Agency: National Science Foundation Dates of beginning and end of grant: 5/01/16 - 4/31/19 Total dollar amount of grant and dollar amount allocated to this candidate: $356,409 Role or responsibilities of the candidate: co-PI Investigators: S. Mallapragada (PI), A.C. Hillier, M. Nilsen-Hamilton, A. Travesset, D. Vaknin, T. Koschny Title of Grant: Bioinspired Metamaterials Granting Agency: Department of Energy – Ames Laboratory


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Dates of beginning and end of grant: 10/01/2015 – 9/30/2018 Total dollar amount of grant and dollar amount allocated to this candidate: $2,703,000/$300,000 Role or responsibilities of the candidate: co-PI Investigators: S. Sundararajan, S. (PI), A.C. Hillier, and three others Hillier Title of Grant: A Collaborative Effort in Moving Towards Online Laboratories in the College of Engineering at Iowa State University Granting Agency: National Science Foundation Dates of beginning and end of grant: 7/01/2012-6/30/2014 Total dollar amount of grant and dollar amount allocated to this candidate: $343,714/$30,000 Role or responsibilities of the candidate: co-PI Investigators: Hillier, A.C. (PI) Title of Grant: Highly Tunable Surface Plasmon Enhanced Optical Transmission Through Periodic Nanostructures Granting Agency: National Science Foundation Dates of beginning and end of grant: 9/01/12 - 8/31/16 Total dollar amount of grant and dollar amount allocated to this candidate: $449,000/all Role or responsibilities of the candidate: PI Investigators: Y, Zhao (PI), K. Woo, A.C. Hillier, and R. Angelici Title of Grant: Single Investigator Small Group Research Program (SISGR) - Biomimetic Catalysts Responsive to Specific Chemical Signals Granting Agency: Department of Energy Dates of beginning and end of grant: 9/15/09 – 9/14/12 Total dollar amount of grant and dollar amount allocated to this candidate: $1,116,000/$239,164 Role or responsibilities of the candidate: co-PI Investigators: Hillier, A.C. and ADA Technologies, Stanford University Title of Grant: Novel 3-Dimensional Platform for High-Throughput Glycomics Analysis Granting Agency: National Institutes of Health Dates of beginning and end of grant: 05/01/2009 –4/30/2012 Total dollar amount of grant and dollar amount allocated to this candidate: $1,147,316/$103,351 Role or responsibilities of the candidate: co-PI Investigators: Hillier, A.C. (PI) Title of Grant: Surface Plasmon Resonance Spectroscopy by Tunable Enhanced Light Transmission Through Nanostructured Gratings Granting Agency: National Science Foundation Dates of beginning and end of grant: 5/1/08 – 4/31/11 Total dollar amount of grant and dollar amount allocated to this candidate: $408,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI), Narasimhan, B., Rajan, K., Sundararajan, S. Title of Grant: High Throughput Atom-Scale Mapping of Materials Chemistry Granting Agency: W.M. Keck Foundation Dates of beginning and end of grant: 07/01/06 – 06/31/09 Total dollar amount of grant and dollar amount allocated to this candidate: $1,600,000 (joint) Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI), Narasimhan, B., Rajan, K., Sundararajan, S.


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Title of Grant: High Throughput Atom-Scale Mapping of Materials Chemistry Granting Agency: Matching Funds from Iowa State University Dates of beginning and end of grant: 07/01/06 – 06/31/09 Total dollar amount of grant and dollar amount allocated to this candidate: $720,000 (joint) Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Consulting Granting Agency: NuPathe, Inc. Dates of beginning and end of grant: 10/01/06 – 6/30/08 Total dollar amount of grant and dollar amount allocated to this candidate: $63,968 /all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Unrestricted Gift for Research Granting Agency: Cabot Microelectronics Corporation Dates of beginning and end of grant: 12/20/05 Total dollar amount of grant and dollar amount allocated to this candidate: $5,000/all Role or responsibilities of the candidate: PI Investigators: Narasimhan, B. (PI), Hillier, A., Mallapragada, S., Porter, M., Shinar, J., Sundararajan, S., Woo, K. Title of Grant: Acquisition of Chemical Printing System for Combinatorial Materials Research Granting Agency: Iowa State University – Vice Provost for Research Dates of beginning and end of grant: 09/01/05 – 08/31/06 Total dollar amount of grant and dollar amount allocated to this candidate: $150,000 (joint) Role or responsibilities of the candidate: co-PI Investigators: Hillier, A.C. (PI) Title of Grant: Building Adaptive Interfaces from Field-Responsive Materials Granting Agency: National Science Foundation Dates of beginning and end of grant: 9/01/2003 - 5/31/2005 Total dollar amount of grant and dollar amount allocated to this candidate: $92,900/all Role or responsibilities of the candidate: PI Investigators: Harriot, L. (PI), Bean, J., Hillier, A.C., Aylor, J., Stan, M., Neurock, M., Pu, L. Title of Grant: NIRT: Merged CMOS/Molecular Integrated Circuit (Mol-MOS) Fabrication, Analysis and Design Granting Agency: National Science Foundation Dates of beginning and end of grant: 8/1/02 – 7/31/06 Total dollar amount of grant and dollar amount allocated to this candidate: $1,050,000/$150,000 Role or responsibilities of the candidate: co-PI Investigators: Hillier, A.C. (PI) Title of Grant: Development and Application Of Tribo-Electrochemical Quartz Crystal Gravimetry Granting Agency: Cabot Microelectronics Corporation Dates of beginning and end of grant: 5/1/02 – 8/31/03 Total dollar amount of grant and dollar amount allocated to this candidate: $107,000/all Role or responsibilities of the candidate: PI Investigators: E. Fernandez (PI), Hillier, A.C., Fraser, C., Landers, J. And Lawrence, M.


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Title of Grant: Interfaces Engineered at the Nanoscale for Biological Applications Granting Agency: University of Virginia - Fund for Excellence in Science and Technology Dates of beginning and end of grant: 7/01/01 – 6/30/04 Total dollar amount of grant and dollar amount allocated to this candidate: $337,792 (jointly) Role or responsibilities of the candidate: co-PI Investigators: Hillier, A.C. (PI) Title of Grant: Office of Naval Research Young Investigator Award: Design and Characterization of Electro-Oxidation Catalysts Through Interfacial Reactivity Mapping Granting Agency: Office of Naval Research Dates of beginning and end of grant: 5/01/00 - 8/31/03 Total dollar amount of grant and dollar amount allocated to this candidate: $350,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Selective Chemical Transport Through Functionalized Polymer and Single Pore Membranes (REU Supplement) Granting Agency: National Science Foundation Dates of beginning and end of grant: 5/01/00 – 12/31/00 Total dollar amount of grant and dollar amount allocated to this candidate: $10,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Surface Interactions at Metal-Liquid Interfaces Granting Agency: Cabot Microelectronics Corporation Dates of beginning and end of grant: 5/01/01 – 4/31/02 Total dollar amount of grant and dollar amount allocated to this candidate: $64,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Active Membrane Transport Using Optically Responsive and Electroactive Macromolecules Granting Agency: Ocean Optics, Educational Grant Program Dates of beginning and end of grant: 6/01/00 - 5/31/01 Total dollar amount of grant and dollar amount allocated to this candidate: $10,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Harrison Undergraduate Research Award Granting Agency: University of Virginia Dates of beginning and end of grant: 1/01/00 – 8/01/00 Total dollar amount of grant and dollar amount allocated to this candidate: $4,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: University Teaching Fellowship Granting Agency: University of Virginia - Teaching Resource Center Dates of beginning and end of grant: 9/1/99 - 8/31/00 Total dollar amount of grant and dollar amount allocated to this candidate: $7,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI)


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Title of Grant: Engineering the Interfacial Chemistry of Oxidative Electro-Catalysts (Type G) Granting Agency: American Chemical Society - Petroleum Research Fund Dates of beginning and end of grant: 9/1/99 - 8/31/01 Total dollar amount of grant and dollar amount allocated to this candidate: $25,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: CAREER: Building Adaptive Interfaces from Field-Responsive Materials Granting Agency: National Science Foundation Dates of beginning and end of grant: 6/01/99 - 5/31/2003 Total dollar amount of grant and dollar amount allocated to this candidate: $235,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Constructing Biomimetic Interfaces Through Controlled Self-Assembly Granting Agency: Jeffress Memorial Trust Dates of beginning and end of grant: 1/1/99 - 12/31/99 Total dollar amount of grant and dollar amount allocated to this candidate: $10,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Small Grant for Exploratory Research (SGER): Towards Active Separation Membranes Using Optically-Responsive and Electroactive Macromolecules Granting Agency: National Science Foundation Dates of beginning and end of grant: 8/01/98 - 9/30/99 Total dollar amount of grant and dollar amount allocated to this candidate: $50,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Design and Interfacial Chemistry of Polymer-Stabilized Bilayer Lipid Membranes Granting Agency: Jeffress Memorial Trust Dates of beginning and end of grant: 1/1/98 - 12/31/98 Total dollar amount of grant and dollar amount allocated to this candidate: $17,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Atomic Force Microscopy of Silica Adsorbates Granting Agency: Nalco Chemical Company Dates of beginning and end of grant: 09/01/97 - 08/31/98 Total dollar amount of grant and dollar amount allocated to this candidate: $4,750/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI) Title of Grant: Young Electrochemical Scanning Probe Microscopist Award Granting Agency: Molecular Imaging Corporation Dates of beginning and end of grant: 09/01/97 - 08/31/98 Total dollar amount of grant and dollar amount allocated to this candidate: $30,000/all Role or responsibilities of the candidate: PI Investigators: Hillier, A.C. (PI)


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Title of Grant: Camille and Henry Dreyfus New Faculty Award: Characterization and Control of Partitioning and Segregation Phenomena at Solid-Liquid and Liquid-Liquid Interfaces Granting Agency: Camille and Henry Dreyfus Foundation Dates of beginning and end of grant: 9/01/96 - 8/31/2001 Total dollar amount of grant and dollar amount allocated to this candidate: $25,000/all Role or responsibilities of the candidate: PI PUBLICATIONS AND PRESENTATIONS Peer-Reviewed Journal Publications (Google Scholar 11/26/18: 2620 total citations, 29 h-index) 69. N.-H. Shen, M.M. Hossen, A.C. Hillier, T. Koschny, C.M. Soukoulis, “Robustness of Optical

Response for Metallized-DNA Self-Assembled Metamaterials with Realistic Morphological Disorder and Surface Roughness,” Phys. Rev. Lett., submitted (2019).

68. R. Mahmood and A.C. Hillier, “Creating Complex Two-Dimensional Quasicrystal, Supercell and

Moiré Lattices with Laser Interference Lithography,” ACS Appl. Mater. Interfaces, submitted (2019).

67. A. Londono-Calderon, M.M. Hossen, P.E. Palo, L. Bendickson, M. Nilsen-Hamilton, A.C. Hillier

and T. Prozorov, “Imaging of Unstained DNA Origami Triangles with Electron Microscopy,” Small Methods, in press (2019).

66. R. Mahmood, M. Johnson, and A.C. Hillier, “Massive Enhancement of Optical Transmission across

a Thin Metal Film via Wave Vector Matching in Grating-Coupled Surface Plasmon Resonance” Anal. Chem., 91(13), 8350-8357 (2019).

65. U. Hamdeh, B. Ryan, R. Nelson, M. Zembrzuski, J. Slobidsky, K. Prince, I. Cleveland, A. Vela-

Ramirez, A. Hillier, M. Panthani, "Solution-Processed Bismuth Halide Perovskite Thin Films: Influence of Deposition Conditions and A-Site Alloying on Morphology and Optical Properties," J. Phys. Chem. Lett., 10(11), 3134-3139 (2019).

64. L. Liu, R. Mahmood, L. Wei, A.C. Hillier, M. Lu, “A phase change thin film-tuned photonic crystal

device,” Nanotechnology, 30(4), 045203 (2019). 63. C.K.A. Nyamekye, Z. Zhu, R. Mahmood, S.C. Weibel, A.C. Hillier, E.A. Smith, “Experimental

analysis of waveguide-coupled surface-plasmon-polariton cone properties,”; Analytica Chimica Acta, 1048, 123-131 (2019).

62. M.M. Hossen, L. Bendickson, P.E. Palo, Z. Yao, M. Nilsen-Hamilton, A.C. Hillier, “Creating

metamaterial building blocks with directed photochemical metallization of silver onto DNA origami templates," Nanotechnology, 29, 355603 (7pp) (2018).

61. R. Mahmood, A. Mettry, A.C. Hillier, “Templating colloidal crystal growth using chirped surface

relief gratings," Langmuir, 34(30), 8828-8838 (2018). 60. L. Liu, H. Khan, J. Li, A.C. Hillier, M. Lu, “A strain-tunable nanoimprint lithography for linear

variable photonic crystal filters," Nanotechnology, 27, 295301 (2016).


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59. Y. Huang, L. Liu, M. Johnson, A.C. Hillier, M. Lu, “One-step sol-gel imprint lithography for guided-mode resonance structures" Nanotechnology, 27(9), 095302 (2016).

58. J.W. Petefish and A.C. Hillier, “Multi-pitched Diffraction Gratings for Surface Plasmon

Resonance-Enhanced Infrared Reflection Absorption Spectroscopy,” Anal. Chem. 87(21), 10862-10870 (2015).

57. Y. Chen, M. Elshobaki, R. Gebhardt, S. Bergeson, J.-M. Park, A. C. Hillier, K.-M. Ho, R. Biswas

and S. Chaudhary,. “Reducing Optical Losses In Organic Solar Cells Using Microlens Arrays: Theoretical-Experimental Investigation Of Microlens Dimensions,” Physical Chemistry Chemical Physics, 17, 3723-3730 (2015).

56. J. Wang, J. Petefish, A.C. Hillier, I.C. Schneider, “Epitaxially Grown Collagen Fibers Reveal

Diversity in Contact Guidance Behavior among Cancer Cells,” Langmuir, 31, 307-314 (2015). 55. J.W. Petefish and A.C. Hillier, “Angle-Tunable Infrared Reflection Absorption Spectroscopy via

Grating-Coupled Surface Plasmon Resonance,” Anal. Chem. 86 (5), 2610-2617 (2014). 54. S. Venkatachalam, R.J. Angelici, L.K. Woo, and A.C. Hillier, “High Rate Detection of Volatile

Products Using Differential Electrochemical Mass Spectrometry: Combining an Electrode-Coated Membrane with Hydrodynamic Flow in a Wall-Tube Configuration” Anal. Chem. 85, 6059-6065 (2013).

53. W.-H. Yeh and A.C. Hillier, “The Use of Dispersion Images for Grating-Coupled Surface Plasmon

Resonance Sensing of Multilayer Langmuir-Blodgett Films,” Anal. Chem., 85, 4080-4086 (2013). 52. D. Joester, A. Hillier, Y. Zhang, T. Prosa, “Organic Materials and Organic/Inorganic

Heterostructures in Atom Probe Tomography,” Microscopy Today, 20(3), 26-31 (2012). 51. W.-H. Yeh, J.W. Petefish, A.C. Hillier, “Resonance Quenching and Guided modes Arising from the

Coupling of Surface Plasmons with a Molecular Resonance,” Anal. Chem., 84(2), 1139-1145 (2012).

50. Y. Zhang, J. Ai, A.C. Hillier, K.R. Hebert, “Atom Probe Tomography Characterization of of Thin

Copper Layers on Aluminum Deposited by Galvanic Displacement,” Langmuir, 28(3), 1673-1677 (2012).

49. A.C. Hillier, “Gradient interfaces for sensing and catalysis,” In Soft Matter Gradient Surfaces:

Methods and Applications, J. Genzer, Ed., John Wiley & Sons, Inc. ISBN: 978-0-470-52265-3 (2012). pp. 145-198.

48. L. Liu, G.-Y. Kim, A.C. Hillier, A. Chandra, “Microstructural and Electrochemical Impedance

Study of Ni-CGO Anodes for Solid Oxide Fuel Cells Fabricated by Ultrasonic Spray Pyrolysis,” J. Power Sources, J. Power Sources, 196(6), 3026-3032 (2011).

47. W.-H. Yeh, J.W. Petefish, A.C. Hillier, “Diffraction-Based Tracking of Surface Plasmon

Resonance Enhanced Transmission Through a Gold-Coated Grating,” Anal. Chem. 83, 6047-6053 (2011).

46. Y. Zhang, A.C. Hillier, “Three Dimensional Atom Probe Tomography of Oxide, Anion and

Alkanethiolate Coatings on Gold,” Anal. Chem., 82, 6139-6147 (2010).


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45. W.-H. Yeh, J. Kleingartner, A.C. Hillier, “Wavelength Tunable Surface Plasmon Resonance-

Enhanced Optical Transmission Through a Chirped Diffraction Grating,” Anal. Chem., 82, 4988-4993 (2010).

44. S. Adhikari, L. S. Chumbley, H. Chen, Y. C. Jean, A. C. Geiculescu, A. C. Hillier, K. R. Hebert,

“Interfacial Voids in Aluminum Created by Aqueous Dissolution,” Electrochimica Acta, 55, 6093-6100 (2010).

43. C.H. Choi and A.C. Hillier, “Combined electrochemical surface plasmon resonance for angle spread imaging of multi-element electrode arrays,” Anal. Chem. 82, 6293-6298 (2010).

42. B. Singh and A.C. Hillier, “Surface plasmon resonance enhanced transmission of light through

periodically modulated gold films,” Anal. Chem., 80, 3803-3810 (2008). 41. E.L. Ratcliff and A.C. Hillier, “Directed electrodeposition of polymer films using spatially

controllable electric field gradients,” Langmuir, 23, 9905-9910 (2007). 40. B. Singh and A.C. Hillier, “Multicolor surface plasmon resonance imaging of inkjet-printed protein

microarrays,” Anal. Chem. 79, 5124-5132, (2007). (Accelerated Article, Research Profile, and cover artwork for July 15, 2007 issue of Analytical Chemistry).

39. S. Jayaraman, E.L. May and A.C. Hillier, “Scanning electrochemical mapping of spatially localized

electrochemical reactions induced by surface potential gradients,” Langmuir, 22, 10322-10328 (2006). (invited article in special issue on “Electrochemistry”)

38. B. Singh and A.C. Hillier, “Grating-coupler assisted infrared reflection absorption spectroscopy for

the characterization of organic thin films,” Anal. Chem. 21, 7335-7340 (2006). 37. D. Pile, Y. Zhang and A.C. Hillier, “Electrochemically-modulated permeability through

poly(aniline) and composite poly(aniline)-poly(styrenesulfonate) membranes,” Langmuir, 22, 5925-5931 (2006).

36. B. Singh and A.C. Hillier, “Surface plasmon resonance imaging of biomolecular interactions on a

grating-based sensor array,” Anal. Chem., 78(6), 2009-2018 (2006). 35. E. May and A.C. Hillier, “Rapid and reversible generation of a microscale pH gradient using

surface electric fields,” Anal. Chem., 77, 6487-6493 (2005). 34. K. Mougin, A.S. Ham, M. B. Lawrence, E.J. Fernandez and A. C. Hillier, “Construction of a

tethered poly(ethylene glycol) surface gradient for studies of cell adhesion kinetics,“ Langmuir,20, 4809-4812 (2005).

33. W. Lu, J. Zhang, F. Kaufman and A.C. Hillier, “Evaluation of the chemical mechanical

planarization of copper with a tribo-electrochemical quartz crystal microbalance,” J. Electrochem. Soc. 152(1), B17-B22 (2005).

32. S. Jayaraman and A.C. Hillier, “Electrochemical synthesis and reactivity screening of a ternary

composition gradient for combinatorial discovery of fuel cell catalysts,” Meas. Sci. & Tech. 16, 5-13 (2005). (invited article for Special Issue on Combinatorial and High-Throughput Materials Research)


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31. K. Mougin, M.B. Lawrence, E.J. Fernandez and A.C. Hillier, “Construction of cell-resistant

surfaces by immobilization of poly(ethylene) glycol on gold,” Langmuir, 20, 4302-4305 (2004). 30. K. Jambunathan, S. Jayarman and A.C. Hillier, “A multi-electrode electrochemical and scanning

differential electrochemical mass spectrometry study of methanol oxidation on electrodeposited PtxRuy,” Langmuir, 20, 1856-1863 (2004).

29. S. Jayaraman and A.C. Hillier, “Combinatorial synthesis and reactivity screening of electro-

oxidation catalyst gradients,” Mat. Res. Soc. Sym. Proc., 804, JJ8.11.1-JJ8.11.9 (2004). 28. S. Jayaraman and A.C. Hillier, “Construction and reactivity screening of a surface composition

gradient for combinatorial discovery of electro-oxidation catalysts,” J. Combi. Chem. 6, 27-31 (2004).

27. S. Jayaraman and A.C. Hillier, “Screening the reactivity of PtxRuy and PtxRuyMoz catalysts toward

the hydrogen oxidation reaction using the scanning electrochemical microscope,” J. Phys. Chem. B 107, 5221-5230 (2003).

26. K. Jambunathan and A.C. Hillier, “Measuring electrocatalytic activity on a local scale with

scanning differential electrochemical mass spectrometry (SDEMS),” J. Electrochem. Soc., 150 (6), E312-E320 (2003).

25. D. Pile and A.C. Hillier, “Electrochemically modulated transport through a conducting polymer

membrane,” J. Membr. Sci., 208(1-2), 119-131 (2002). 24. K. Jambunathan and A.C. Hillier, “Scanning electrochemical microscopy of hydrogen electro-

oxidation. II. Dynamics and potential dependence of platinum de-activation by carbon monoxide,” J. Electroanal. Chem., 524-525, 144-154 (2002). (invited article for Special Issue highlighting the 10th International Conference on Electrified Interfaces)

23. M.D. Hollingsworth, M.E. Brown, M. Dudley, H. Chung, M.L. Peterson and A.C. Hillier,

“Template effects, asymmetry and twinning in helical inclusion compounds,” Angewandte Chemie, Int. Ed. Engl., 41(6), 965-969 (2002).

22. S. Jayaraman and A.C. Hillier, “Construction and reactivity mapping of a platinum catalyst

gradient using the scanning electrochemical microscope,” Langmuir, 17(25), 7857 (2001). 21. K. Jambunathan, B.C. Shah, J.L. Hudson and A.C. Hillier, “Scanning electrochemical microscopy

of hydrogen electro-oxdiation. Rate constant measurements and carbon monoxide poisoning on platinum,” J. Electroanal. Chem., 500(1-2), 279-89 (2001). (invited article for Special Issue in honor of the retirement of Roger Parsons)

20. B.C. Shah and A.C. Hillier, "Imaging the reactivity of electro-oxidation catalysts with the scanning

electrochemical microscope," J. Electrochem. Soc, 147(8), 3043-48 (2000).

19. J.A. Last, D.E. Hooks, A.C. Hillier, and M.D. Ward, "The physicochemical origins of coincident epitaxy in molecular overlayers: lattice modeling vs potential energy calculations," J. Phys. Chem. B, 103(32), 6723-6733 (1999).


14

18. S.D. Campbell and A.C. Hillier, “Nanometer-scale probing of potential-dependent electrostatic forces, adhesion and interfacial friction at the electrode-electrolyte interface,” Langmuir 15(3), 891 (1999). (invited article for special issue on Electrochemistry at Nanostructured Materials)

17. J. Last, A. C. Hillier, D.E. Hooks, J.B. Maxson, and M.D. Ward, “Epitaxially driven assembly of

crystalline molecular films on ordered substrates,” Chem. Mater. 10(1), 422 (1998). 16. K. Hu, F-R.F. Fan, A.J. Bard, and A.C. Hillier, “Direct measurement of diffuse double-layer forces

at the semiconductor/electrolyte interface using an atomic force microscope,” J. Phys. Chem. B, 101(41), 8298 (1997).

15. A.C. Hillier and A.J. Bard, “AC-mode atomic force microscope imaging in air and solutions with a

thermally-driven bimetallic cantilever probe,” Rev. Sci. Instrum. 68, 2082 (1997). 14. S. J. Bonafede, A. C. Hillier, and M. D. Ward, “Directing nucleation and growth of molecular

crystals on ordered substrates: The role of epitaxial interactions,” NATO ASI Series, Series C: Mathematical and Physical Sciences , 499, 637 (1997).

13. A.C. Hillier and M.D. Ward, “Epitaxial interactions between molecular overlayers and ordered

substrates,” Phys. Rev. B. 54(19), 14037 (1996). 12. M.D. Hollingworth, M.E. Brown, A.C. Hillier, B.D. Santarsiero, and J.D. Chaney, “Superstructure

control in the crystal growth and ordering of urea inclusion compounds,” Science, 273, 1355 (1996).

11. A.C. Hillier, S. Kim, and A.J. Bard, “Measurement of double layer forces at the electrode-

electrolyte interface using the atomic force microscope: Potential and anion-dependent interactions,” J. Phys. Chem. 100, 18808 (1996).

10. J.V. Macpherson, P.R. Unwin, A.C. Hillier, and A.J. Bard, “In-situ imaging of ionic crystal

dissolution using an integrated electrochemical/atomic force microscope probe,” J. Am. Chem. Soc. 118, 6445 (1996).

9. A.C. Hillier, J. H. Schott, and M.D. Ward, “Molecular nanoclusters as precursors to thin films and

crystals,” Adv. Mater. 7(4), 409 (1995). 8. A.C. Hillier, J.B. Maxson, and M.D. Ward, “Electrocrystallization of an ordered organic

monolayer: selective epitaxial growth of -(ET)2I3 on graphite,” Chem. Mater. 6, 2222 (1994). 7. H.H. Cai, A.C. Hillier, K.R. Franklin, C.C. Nunn, and M.D. Ward, “Nanoscale imaging of

molecular adsorption,” Science, 266, 1551 (1994). 6. P.W. Carter, L.M. Frostman, A.C. Hillier, and M.D. Ward, “Nucleation and growth of molecular

crystals on molecular interfaces: The role of chemical functionality and topography,” Interfacial Design and Chemical Sensing, ACS Symp. Series, 561, 186 (1994).

5. P.W. Carter, A.C. Hillier, and M.D. Ward, “Molecular single crystal interfaces: Topographical

structure and crystal growth,” Mol. Cryst. Liq. Cryst., 242, 53 (1994). 4. A.C. Hillier and M.D. Ward, “Atomic force microscopy of the eletrochemical nucleation and

growth of molecular crystals,” Science, 263, 1261 (1994).


15

3. P.W. Carter, A.C. Hillier, and M.D. Ward, “Nanoscale surface topography and growth of molecular

crystals: The role of anisotropic intermolecular bonding,” J. Amer. Chem. Soc., 116, 944 (1994). 2. A.C. Hillier and M.D. Ward, “Scanning electrochemical mass sensitivity mapping of the quartz

crystal microbalance in liquid media,” Anal. Chem., 64, 2539 (1992). 1. A.C. Hillier and C.W. Walton, “Modeling electroplating rinse systems using equation-solving

software,” Plat. and Surf. Fin., 78(11), 72 (1991). Edited Books 4. O’Dwyer, C., Buckley, D.N., Hillier, A.C., Etcheberry, A., Villalpando, M.S.; Editors. Processes

at the Semiconductor Solution Interface 6. (Proceedings of the 225rd Meeting of the Electrochemical Society held May 12-16, 2015 in Chicago, IL) [In: Proc. - Electrochem. Soc., 2015].

3. Hillier, A.C., Editor. Electrode Processes 8. (Proceedings of the 224th Meeting of the

Electrochemical Society held October 27-31, 2013 in San Francisco, CA.) [In: Proc. – Electrochem. Soc., 2013], in press (2013).

2. O’Dwyer, C., Buckley, D.N., Hillier, A.C., Etcheberry, A., Villalpando, M.S.; Editors. Processes

at the Semiconductor Solution Interface 5. (Proceedings of the 223rd Meeting of the Electrochemical Society held May 12-16, 2013 in Toronto, CAN.) [In: Proc. - Electrochem. Soc., 53(6), 2013].

1. Taylor, S. Ray; Hillier, Andrew C.; Seo, Masahiro; Editors. Localized In-Situ Methods for

Investigating Electrochemical Interfaces. (Proceedings of the 1999 Joint International Meeting of The Electrochemical Society and The Electrochemical Society of Japan, held 20-21 October, in Honolulu, Hawaii.) [In: Proc. - Electrochem. Soc., 99(28), 2000]. 402 pp.

Book and Paper Reviews (in print or accepted) 1. Review of: Modern Aspects of Electrochemistry, No. 41. Edited by Constantinos Vayenas

(University of Patras, Greece), Ralph E. White (University of South Carolina, USA), and Maria E. Gamboa-Adelco (Superior, CO, USA). Springer Science + Business Media, LLC: New York. 2007. Xii + 308 pp. for Journal of the American Chemical Society (J. Am. Chem. Soc., 130(2), 776-777 (2008)).

Unrefereed Conference Proceedings and Articles 4. B.C. Shah, K. Jambunathan and A.C. Hillier, “Imaging the reactivity of electro-oxidation catalysts

using the scanning electrochemical microscope,” in Localized In-Situ Methods for Investigating Electrochemical Interfaces, A.C. Hillier, M. Seo, and S.R. Taylor, Eds., PV 99-28, p. 175, The Electrochemical Society Proceedings Series, Pennington, NJ (2000).

3. A.C. Hillier, “Electrocrystallization of the low-dimensional organic conductor tetrathiafulvalene

bromide([TTF]Br0.7),” Interface, 2(2), 53-4 (1993).


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2. A.C. Hillier and C.W. Walton, “Demonstration of the application of an equation solving program for modeling rinse and recovery systems,” Proc. Of the 12th AESF/EPA Conference on Envinronmental Control for the Surface Finishing Industry, Kissimmee, FL, 193-216 (1991).

1. C.W. Walton, A.C. Hillier and G.L. Poppe, “Process options for waste minimization and metal

recovery for the metal finishing industries,” Proc. Of the International Conference on Pollution Prevention: Clean Technologies and Clean Products, EPA/600/0-90/039, U.S. EPA, Washington, D.C., 703-712 (1990).

Invited Oral Presentations 43. A.C. Hillier, “Nanostructured Surfaces for Optics, Plasmonics, and Templating,” Department of

Chemical Engineering, University of Wyoming, Laramie, WY (October, 2019). 42. A.C. Hillier, “Nanostructured Surfaces for Optics, Plasmonics, and Templating,” Department of

Biomedical, Biological and Chemical Engineering, University of Missouri, Columbia, MO (September, 2019).

41. A.C. Hillier, “Surface Plasmon Resonance Sensing at Surfaces with Nanostructured Topology,”

School of Chemical, Biological and Materials Engineering, University of Oklahoma, Norman, OK (September, 2018).


Department of Chemical and Biomolecular Engineering, Vanderbilt University, Nashville, TN (September, 2017).


Amol Ajinkya Distinguished Lecturer Series, Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, New York (September, 2017).


Department of Chemical and Biomedical Engineering, University of South Florida, Tampa, FL (March, 2017).


Department of Chemical and Biological Engineering, Georgia Tech, Atlanta, GA (March, 2016). 36. A.C. Hillier, "Three-Dimensional Atom Probe Tomography of Electrochemical Interfaces,"

Electrochemistry Gordon Research Conference, Ventura, CA (January, 2016). 35. A.C. Hillier, “Surface Plasmon Resonance Sensing at Surfaces with Nanostructured Topology,”

Department of Chemical and Biological Engineering, Pennsylvania State University, University Park, PA (December, 2013).


Department of Chemical and Biological Engineering, University of Florida, Gainesville, FL (September, 2012).


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33. A.C. Hillier, “Atomic-Scale Imaging with Three-Dimensional Atom Probe Tomography,” W.M. Keck Foundation Workshop on “Imaging and Detection of Single Molecules: Challenges and Opportunities,” National Academies Beckman Center, Irvine, California (August, 2012).


Department of Chemical and Biological Engineering, University of Iowa, Iowa City, IA (April, 2011).

31. A.C. Hillier, “Nanoscale Mapping of Soft Materials with Three Dimensional Atom Probe

Tomography,” NanoWayne Seminar Series, Wayne State University, Detroit, MI (February, 2009).

30. A.C. Hillier, “Gradient Assembly of Complex Interfaces,” Gordon Research Conference on

“Chemistry at Interfaces: Surfaces with Spatial Property Gradients,” Waterville Valley, NH (July, 2008).

29. A.C. Hillier, “Gradient Assembly of Complex Interfaces for Sensing, Fabrication and High

Throughput Analysis,” Department of Chemical Engineering, Vanderbilt University, Nashville, TN (March, 2007).

28. A.C. Hillier, “Development of High Throughput and Combinatorial Approaches for the

Discovery and Characterization of New Electrocatalytic Materials,” MRS Meeting, Boston, MA (December, 2004).

27. A.C. Hillier, “Developing Combinatorial and High Throughput Methods to Study Performance-

Property Relationships in Electrochemical Systems,” Department of Chemical Engineering, University of Iowa, Iowa City, IA (November 18, 2004).


Property Relationships in Electrochemical Systems,” Department of Chemical Engineering, University of Washington, Seattle, WA (October 11, 2004).


Property Relationships in Electrochemical Systems,” General Electric Corporate Research and Development Laboratory, Niskayuna, NY (October 7, 2004).

24. A.C. Hillier, “Tribo-Electrochemical Quartz Crystal Nanobalance,” Cabot Microelectronics,

Aurora, IL (April, 2003). 23. A.C. Hillier, “Materials and device design in electrochemical systems,” Department of Chemical

Engineering, Drexel University, Philadelphia, PA (March 10, 2003) 22. A.C. Hillier, “Using electric fields to characterize and control surfaces,” Department of Chemical

Engineering, Iowa State University, Ames, IA (January 28, 2003) 21. A.C. Hillier, “Characterization of electro-oxidation catalysts with scanning electrochemical and

mass spectral methods,” Department of Chemistry, Iowa State University, Ames, IA (October 10, 2002)

20. A.C. Hillier, “Chemically-sensitive scanning probe imaging for the reactivity mapping of anode

catalysts,” Gordon Research Conference in Fuel Cells (August 2, 2002).


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19. A.C. Hillier, “Characterization of electro-oxidation catalysts with scanning electrochemical and

mass spectral methods,” Reilley and Young Investigator Award Symposium, Pittcon, New Orleans, LA (March 20, 2002)

18. A.C. Hillier, “Measuring electrocatalytic activity on a local scale with microelectrodes and mass

spectrometry,” Department of Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, MN (March 12, 2002).

17. A.C. Hillier, “Using scanning electrochemistry and in-situ mass spectrometry to measure

electrocatalytic activity on a local scale,” Gordon Research Conference in Electrochemistry, Ventura, CA (January, 2002).

16. A.C. Hillier, “Electrochemical modulation of conducting polymer films and membranes,”

Department of Chemical Engineering, University of Massachusetts-Amherst, Amherst, MA (December 6, 2001).

15. A.C. Hillier, “Measuring electrocatalytic activity on a local scale with microelectrodes and mass

spectrometry,” Department of Chemical Engineering, University of California, Berkeley, CA (October 24, 2001).

14. A.C. Hillier, “Measuring reactivity on a local scale with microelectrodes and mass spectrometry,”

Department of Chemical Engineering, University of Virginia, Charlottesville, VA (October 11, 2001).

13. A.C. Hillier, "Measurements of surface forces, friction and wear using atomic force microscopy,"

Cabot Microelectronics, Aurora, IL (August, 2001). 12. A.C. Hillier, “Electrochemically actuated harvesting of water from air,” Defense Science

Research Council Meeting, Portland, OR (July 17, 2001). 11. A.C. Hillier, “Construction and scanning electrochemical imaging of surface catalyst gradients,”

International Conference on Electrified Interfaces, Wolfeville, Nova Scotia (July 9-13, 2001). 10. A.C. Hillier, “Scanning electrochemical microscopy of electro-oxidation catalysts: Reaction

kinetics, electrode de-activation and gradient-based catalyst screening,” Spring Symposium on Materials for Power Generation, General Electric Corporate Research and Development Laboratory, Niskayuna, NY (May 1-2, 2001).

9. A.C. Hillier, “Towards the discovery of improved fuel cell catalysts: Construction and reactivity

imaging of surface gradients,” Department of Chemical Engineering, University of Wisconsin, Madison, WI (April 24, 2001).

8. A.C. Hillier, “Scanning electrochemical microscopy of electro-oxidation catalysts: reaction

kinetics, catalyst de-activation and gradient-based catalyst screening,” Office of Naval Research Program Review, Annapolis, MD (February 19, 2001).

7. A.C. Hillier, "Understanding the potential-dependent chemistry of the electrode/electrolyte

interface with applications in electrocatalysis and field-enhanced separations," Department of Chemical Engineering, Clemson University, Clemson, SC (February 25, 1999).


19

6. A.C. Hillier, "Electric field-induced switching of interfacial properties in electroactive and conducting polymer membranes," Department of Chemical Engineering, University of Kansas, Lawrence, KS (October 20, 1998).

5. A.C. Hillier, "Probing the potential-dependent chemistry, surface forces, and interfacial friction at

electrode and polymer-electrolyte interfaces," Department of Chemistry, Virginia Polytechnic Institute and State University, Blacksburg, VA (October 8, 1998).

4. A.C. Hillier, “Advanced characterization techniques for the solid-liquid interface: Forces,

friction, chemistry and thermal effects,” May, 1998, Master Class in Scanning Probe Microscopy, Center for Interfacial Engineering, University of Minnesota, Mineapolis, MN (May 22, 1998).

3. A.C. Hillier, “Imaging the chemistry, structure, and intermolecular forces at the electrode-

electrolyte interface,” April, 1998 Meeting of the National Capital Section of the Electrochemical Society, Charlottesville, VA (April 14, 1998).

2. A.C. Hillier and M.D. Ward, “AFM of the electrochemical nucleation and growth of molecular

crystals,” 1998 Meeting of the American Physical Society, Los Angeles, CA (March 16-20, 1998).

1. A.C. Hillier “Atomic force microscopy of the electrode/electrolyte interface,” Young

Electrochemical Scanning Probe Microscopist of 1997 Awards Dinner, 191st Meeting of the Electrochemical Society, Montreal, Quebec, Canada, May 6, 1997).


20

Contributed Oral Presentations 51. M.M. Hossen, L. Bendickson, P.E. Palo, M. Nilsen-Hamilton, and A.C. Hillier, “Fabrication of

Metamaterial Building Blocks with Selective Photoreduction of Metal Ions Followed by Electroless Plating onto DNA Origami Templates,” ECS National Meeting, Dallas, TX (May, 2019).

50. R. Mahmood, A. Mettry and A.C. Hillier, “Templating Colloidal Crystal Growth Using Chirped

Surface Relief Gratings,” AIChE National Meeting, Pittsburgh, PA (October, 2018). 49. R. Mahmood, M.B. Johnson, and A.C. Hillier, “Massive Enhancement of Optical Transmission

across a Thin Metal Film Via Wave Vector Matching in Grating-Coupled Surface Plasmon Resonance,” AIChE National Meeting, Pittsburgh, PA (October, 2018).

48. R. Mahmood, M.B. Johnson, and A.C. Hillier, “Enhancement of optical transmission across a

thin metal film via refractive index matching technique in grating-coupled surface plasmon resonance,” ACS Midwest Regional Conference, Ames, Iowa (October 2018).

47. L. Liu, H. Khan, J. Li, A. Hillier, M. Lu, “Fabricating a Linear Variable Filter Using Nanoreplica

Molding," CLEO: 2016, San Jose, CA (June 2016) 46. Z. Yao and A.C. Hillier, “Surface Plasmon Resonance Enhanced Infrared Reflection Absorption

Spectroscopy Using Tunable Compressive Gratings,” AIChE National Meeting, Salt Lake City, UT (November, 2015).

45. M. Johnson and A.C. Hillier, “Grating-Based Surface Plasmon Enhancement of Optical

Transmission through Wave Vector Matching Across a Thin Metal Film Via High Refractive Index Thin Oxide Film Deposition,” AIChE National Meeting, Salt Lake City, UT (November, 2015).

44. Juan Wang, Joseph Petefish, Andrew Hillier, Ian Schneider, “Uncovering Cell-type Specific

Plasticity in Contact Guidance Efficiency,” BMES 2014 Annual Meeting, October 22-25, 2014, San Antonio, Texas

43. W.-H. Yeh, J.W. Petefish and A.C. Hillier, “Tuning and Control of Surface Plasmon Resonance

Sensing Using Grating-Based Nanostructures,” ECS National Meeting, San Francisco, CA (October 27, 2013).

42. Y. Zhang and A.C. Hillier, “Three-Dimensional Nanoscale Imaging of Electrochemical Interfaces

Using Atom Probe Tomography,” ECS National Meeting, Honolulu, HA (October 7, 2012). 41. J. Ai, Y. Zhang, A.C. Hillier, and K. Hebert, "Ultrathin Copper Layers Deposited by Galvanic

Displacement: Characterization by Atom Probe Tomography," ECS National Meeting, Honolulu, HA (October 7, 2012).

40. W.-H. Yeh, J.W. Petefish and A.C. Hillier, “The Coupling Phenomena of Surface Plasmon

Resonance with Molecular Resonance of A Dye,” AIChE National Meeting, Minneapolis, MN (October, 2011).


21

39. Y. Zhang and A.C. Hillier, “Nanoscale Mapping of Electrochemical Interfaces Using Three-Dimensional Atom Probe Tomography,” AIChE National Meeting, Salt Lake City, UT (November, 2010).

38. W.-H. Yeh, B. Singh and A.C. Hillier, “Optical Sensing with Surface Plasmon Enhanced

Transmission Through Surfaces with Nanostructured Topology,” AIChE National Meeting, Salt Lake City, UT (November, 2010).

37. J. Ai, S.P. Liu, S. Adhikari, Y. Zhang, A.C. Hillier, and K.R. Hebert, “Open Circuit Copper

Deposition on Aluminum Assisted by Absorbed Hydrogen: Quartz Crystal Microbalance and Atom Probe Tomography Studies,” ECS National Meeting, Las Vegas, NV (October, 2010).

36. Y. Zhang and A.C. Hillier, “Three-Dimensional Nanoscale Imaging of Electrochemical Interfaces

Using Atom Probe Tomography,” ECS National Meeting, Las Vegas, NV (October, 2010). 35. Y. Zhang and A.C. Hillier, “Nanoscale Mapping of Electrochemical Interfaces Using Three-

Dimensional Atom Probe Tomography,” ECS National Meeting, Vienna, Austria (October, 2009).

34. W.H. Yeh, B. Singh and A.C. Hillier, “Grating-Based Surface Plasmon Spectoscopy as a Novel

Probe of Interfacial Films and Adsorbates,” AIChE National Meeting, Nashville, TN (November, 2009).

33. Y. Zhang and A.C. Hillier, “Nanoscale Mapping of Polymer Thin Films Using Three-

Dimensional Atom Probe Tomography,” AIChE National Meeting, Nashville, TN (November, 2009).

32. E. May (presenter) and A.C. Hillier, “Rapid and Reversible Generation of a Microscale pH

Gradient Using Surface Electric Fields,” 209th ECS National Meeting, Denver, CO (May, 2006). 31. K. Ganesan (presenter) and A.C. Hillier, “Application of Combinatorial Electrochemistry to

Identify Highly Active and Poison-Tolerant Anode Catalysts for Low Temperature Fuel Cells,” AIChE National Meeting, Austin, TX (November, 2004).

30. C.H. Choi (presenter) and A.C. Hillier, “Surface Plasmon Resonance Imaging as a High

Throughput Screening Tool for Characterization of Solid-Liquid and Electrochemical Interfaces,” AIChE National Meeting, Austin, TX (November, 2004).

29. S. Jayaraman and A.C. Hillier, “Construction and Reactivity Screening of a Surface Composition

Gradient for Combinatorial Discovery of Electro-Oxidation Catalysts,” Pittcon Meeting, Chicago, IL (March, 2004).

28. K. Jambunathan and A.C. Hillier, “Scanning Differential Electrochemical Mass Spectrometry

(SDEMS) as a Tool for Chemical Mapping at Solid/Liquid Interfaces,” Pittsburg Analytical Conference (Pittcon) Meeting, Chicago, IL (March, 2004).

27. S. Jayaraman and A.C. Hillier, “Combinatorial synthesis and reactivity screening of electro-

oxidation catalyst gradients,” MRS Meeting, Boston, MA (December, 2003).


22

26. S. Jayaraman (presenter) and A.C. Hillier, “Synthesis and screening of fuel cell catalyst gradients and arrays using the scanning electrochemical microscope,” AIChE National Meeting, Indianapolis, IN (November, 2003).

25. S. Jayaraman (presenter) and A.C. Hillier, “Synthesis and screening of fuel cell catalyst gradients

and arrays using the scanning electrochemical microscope,” AIChE National Meeting, Indianapolis, IN (November, 2002).

24. S. Jayaraman and A.C. Hillier, “Scanning electrochemical and mass spectral imaging of multi-

component electrode gradients and arrays,” 202nd Meeting of the Electrochemical Society, Salt Lake City, UT (October, 2002).

23. D. Pile and A.C. Hillier, “Electrochemically-modulated separations based upon conducting

polymer membranes,” AIChE National Meeting, Reno, NV (November, 2001). 22. K. Jambunathan (presenter), B. Shah, J.L. Hudson, and A.C. Hillier, “Scanning Electrochemical

Microscopy (SECM) of Hydrogen Electro-oxidation on Pt and PtRu Electrodes and the Effect of CO Poisoning,” 198th Meeting of the Electrochemical Society, Washington, DC (March 26-30, 2001).

21. A.C. Hillier, “Scanning electrochemical microscopy of electro-oxidation catalysts: reaction

kinetics, surface de-activation and multi-component catalyst screening,” Gordon Research Conference in Electrochemistry, Ventura, CA (January 15-19, 2001).

20. K. Jambunathan (presenter), B.C. Shah, J.L. Hudson, and A.C. Hillier, “Scanning

electrochemical microscopy of electro-oxidation catalysts: Hydrogen oxidation and the effect of surface adsorbates,” AIChE National Meeting, Los Angeles, CA (November 12-17, 2000).

19. A.C. Hillier and S.D. Campbell, “Nanometer-scale probing of adhesion and interfacial friction at

the electrode-electrolyte interface,” AIChE National Meeting, Los Angeles, CA (November 12-17, 2000).

18. J. Bass (presenter), S.D. Campbell, and A.C. Hillier, “Membrane-based separations using

electrochemically-responsive polymers and macromolecules,” Poster Session, AIChE National Meeting, Los Angeles, CA (November 12-17, 2000).

17. A.C. Hillier, K. Jambunathan, and B.C. Shah, "Imaging the reactivity of electro-oxidation

catalysts using the scanning electrochemical microscope," Poster Session, Gordon Research Conference on Electrochemistry, Ventura, CA (January 16-21, 2000).

16. A.C. Hillier, K. Jambunathan, and B.C. Shah, "Application of the scanning electrochemical

microscope as a novel spectroscopic probe for the characterization of electro-oxidation catalysts," AIChE National Meeting, Dallas, TX (October 31 - November 5, 1999).

15. A.C. Hillier and B.C. Shah, "Imaging the reactivity of electro-oxidation catalysts using the

scanning electrochemical microscope," 1999 Joint International Meeting of the Electrochemical Society, Honolulu, HI (October 17-22, 1999).

14. A.C. Hillier and S.D. Campbell, "Nanometer-scale probing of potential-dependent electrostatic

forces, adhesion , and interfacial friction at the electrode-electrolyte interface," 73rd ACS Colloid


23

and Surface Science Symposium, Massachusetts Institute of Technology, Boston, MA (June 13-16, 1999).

13. A.C. Hillier and K.A. Young, “Electric field-induced switching of chemical selectivity and

interfacial transport in electroactive and conducting polymer thin films and membranes,” AIChE National Meeting, Miami Beach, FL (November 16-21, 1998).

12. A.C. Hillier and A.J. Bard, “Nanoscale probing of diffuse double layer forces at the electrode-

electrolyte interface using the atomic force microscope,” 215th Meeting of the American Chemical Society, Dallas, TX (March 29 - April 2, 1998).

11. A.C. Hillier S. Kim, and A.J. Bard, “Measurement of diffuse double layer forces at the electrode-

electrolyte interface using the atomic force microscope,” AIChE National Meeting, Los Angeles, CA (November 16-21, 1997).

10. A.C. Hillier and M.D. Ward, “The electrocrystallization of organic thin films on carbon

substrates: molecular structure, topography, and epitaxial interactions,” 208th American Chemical Society National Meeting, Washington, DC (August, 1994).

9. A.C. Hillier and M.D. Ward, “The electrocrystallization of organic thin films on carbon

substrates:,” 6th Midwest Organic Solid-State Chemistry Conference, University of Minnesota, Minneapolis, MN (June 8-10, 1994).

8. A.C. Hillier and M.D. Ward, “Atomic force microscopy of the electrochemical nucleation and

growth of molecular crystals,” poster session, 185th Meeting of the Electrochemical Society, San Francisco, CA (May 22-27, 1994).

7. A.C. Hillier and M.D. Ward, “In situ atomic force microscopy: The electrocrystallization of low

dimensional organic conductors,” poster session, Gordon Research Conference in Electrochemistry, Ventura, CA (January 9-14, 1994).

6. A.C. Hillier and M.D. Ward, “In situ atomic force microscopy of the electrochemical growth and

dissolution of conductive charge transfer salts,” 206th American Chemical Society National Meeting, Chicago, IL (August 22-27, 1993).

5. A.C. Hillier and M.D. Ward, “In situ atomic force microscopy of the electrochemical growth and

dissolution of conductive charge transfer salts,” 5th Midwest Organic Solid-State Chemistry Conference, Purdue University, West Lafayette, IN (June 4-5, 1993).

4. A.C. Hillier and M.D. Ward, “Mass sensitivity mapping of the quartz crystal microbalance in

liquid media,” 181st Meeting of the Electrochemical Society, St. Louis, MO, May 17-22, 1992. 3. A.C. Hillier and M.D. Ward, “Probing electrocrystallization mechanisms of molecular solids,”

181st Meeting of the Electrochemical Society, St. Louis, MO, May 17-22, 1992. 2. A.C. Hillier and C.W. Walton, “A statistical evaluation of carbon dioxide equations-of-state used

in enhanced oil recovery,” AIChE National Meeting, Chicago, IL, November 11-16, 1990, in Extended Abstracts of the AIChE 1990 Annual Meeting, AIChE, New York, p. 566 (1990).


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1. A.C. Hillier and C.W. Walton, “A statistical evaluation of carbon dioxide equations-of-state used in enhanced oil recovery,” AIChE Midwest Regional Student Meeting, University of Oklahoma, Norman, OK, April 12, 1990.

CONSULTING Nalco Chemical Company Cabot Microelectronics NuPathe Incorporated PATENTS, DISCLOSURES AND TECHNOLOGY TRANSFER ACTIVITIES Hillier, A.C. and Singh, B., “A method for anchoring droplets for fabrication of SPR sensor arrays”, U.S. Patent disclosure (2005) Hillier, A.C. and Singh, B., “Grating coupler assisted infrared reflection absorption spectroscopy”, U.S. Patent disclosure (2006) RESEARCH SUPERVISION, STUDENT DIRECTION AND TEACHING Supervised Research Scientists 2008 - 2009 Keck Laboratory Manager, Michael Stukowski, Ph.D. in Materials Science,

Rensselaer Polytechnic Institute, Troy, NY, 2005. Supervised Post-Doctoral Researchers 2010-2012 Research Associate, Zhefei Li, Ph.D. in Chemistry, University of Missouri,

Rolla, 2010. 2002 - 2004 Research Associate, Wenquan Lu, Ph.D. in Chemical Engineering, Illinois

Institute of Technology, Chicago, IL, 2002. 2002 - 2003 Research Associate, Karine Mougin, Ph.D. in Physical Chemistry, Institut de

Chimie des Surfaces et Interfaces, Mulhouse, France, 2001. 2001 - 2002 Research Associate, Anju Sawhney, Ph.D. in Analytical Chemistry, Indian

Institute of Technology, New Delhi, 2000. Supervised Graduate Theses Ph.D. Monirul Islam – Thesis Title: TBD, expected May 2022.

Alma Vela-Ramirez – Thesis Title: TBD, expected May 2021.

Md-Mir Hossen – Thesis Title: TBD, expected May 2020.


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Russell Mahmood – Thesis Title: Nanostructured surfaces fabricated by modi_ed interference

lithographic technique for modulation of interfacial processes, March 2019.

Zhiqi Yao – Thesis Title: Nanostructured Surfaces for Surface Enhanced Infrared Absorption Spectroscopy, December, 2018.

Subramanian Venkatachalam – Thesis Title: Discovery of Novel Electrode Catalysts for the Electroreduction of Carbon Dioxide, April 2015.

Joseph Petefish – Thesis Title:, Surface Plasmon Sensing of Carbohydrate Microarrays, May 2014.

Wei-Hsun Yeh, Thesis Title: Surface Plasmon Resonance Enhanced Spectroscopy at

Nanostructured Surfaces, August, 2013. Yi Zhang, Thesis Title: Three-Dimensional Atom Probe Tomography of Organic Thin Films and

Polymer-Encapsulated Nanoparticles, May, 2009. Chang Hoon Choi, Thesis Title: Kinetic Study of Copper Chemistry in Chemical Mechanical

Polishing (CMP), May, 2008. Erin May, Thesis Title: Development of Gradient-Based Surface Methods, April, 2007.

Bipin Singh, Thesis Title: Biomolecular Sensing with Light at Nanostructured Surfaces, April,

2007. Shrisudersan Jayaraman, Thesis Title: Combinatorial Design of Electro-oxidation Catalysts,

June, 2004. Donald Pile, Thesis Title: Electrochemical Modulation of Molecular Flux through Supported

Conducting Polymer Membranes, August, 2002. Krishna Jambunathan, Thesis Title: Probing the Reactivity of Electro-Oxidation Catalysts, May,

2002 (with J.L. Hudson). M.S. Michael Johnson – Thesis Title: Nanoscale Plasmonics, Mary, 2016.

Kousik Ganesan, Synthesis and Characterization of Electrocatalyst Libraries for PEM Fuel

Cells: A Combinatorial Study, completed March, 2005. Zhanqi Liu, Thesis Title: Controlled Wettability in Conducting Polymer Membranes, January,

2003. Krishna Jambunathan, Thesis Title: Interfacial Kinetics of Electrocatalytic Oxidation Reactions,

Deccember, 1999 (with J.L. Hudson). Shane Campbell, Thesis Title: Electroactive Macromolecules as Adaptive Components for

Chemical Storage and Sensing, July, 1999.


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Biren Shah, Thesis Title: Interfacial Characterization of Electrocatalytic Reactions at Metal and

Molecular Surfaces, November, 1998. K. Andy Young, Thesis Title: Tunable Ion Exchange in Conducting Polymers, July, 1998.

Supervised Undergraduate Research Angelica Lopez (2018), Thomas Roberts (2017), Andrew Burget (2016, 2017), Nicholas Gossling (2016, 2017), Andrew Mettry (2016,2017), Jesus Rasgado Lopez (2014), Mingda Luo (2014), Matthew Ellis (2012), Tyler Platt (2011), Isha Labhasetwar (2009), Justin Kleingartner (2008), Jeff Ludwig (2002), Quang Nguyen, Jason Bernd*, Margot Nordzij (with Ramon Espino) (2001), Jo Ann Chia*, John Bass†, Vincent Camiolo (2000), John Hwang, Chris Stillabower, Cindy Donley, Mark Keeton (1999), Richard (Sean) Jacques, Johnathan Crepeau (with R.J. Davis) (1998), Jason Ward, Thomas Huff, Michael Crouch, Janet Ludert, Bradley Whitlow (1997) * finalist for Undergraduate Research and Design Symposium † winner of Harrison Undergraduate Research Award Membership on Graduate Committees Kira Rahn, Ph.D. Candiddate, Chemistry Tian Lan, Ph.D. Candiddate, Mechanical Engineering Nathaniel Kallmyer, Ph.D. Candiddate, Chemical Engineering Jan Borchers, Ph.D. Candiddate, Chemistry Anuraag Boddupalli, Ph.D. Candiddate, Chemical Engineering Srikanth Nayak, Ph.D. Candiddate, Chemical Engineering Ji Qi, Ph.D. Candidate, Chemical Engineering Qing He, Ph.D. Candidate, Mechanical Engineering Juan Wang, Ph.D. Candidate, Chemical Engineering Jason Anderson, Ph.D. Candidate, Chemical Engineering Emma White, Ph.D. Candidate, Materials Science and Engineering Omer Ozgur Capraz, Ph.D. Candidate, Chemical Engineering Ibrahim El-Hedok, Ph.D. Candidate, Chemical Engineering Lin Liu, Ph.D. Candidate, Mechanical Engineering Pedro Ortiz, Ph.D. Candidate, Chemical Engineering Dahai Shao, Ph.D. Candidate, Chemistry Ryan Snell, Ph.D. Candidate, Chemical Engineering Michael Nolan, Ph.D. Candidate, Chemical Engineering Keenan Deutsch, Ph.D. Candidate, Chemical Engineering Latrisha Petersen, Ph.D. Candidate, Chemical Engineering Yanjie Zhang, Ph.D. Candidate, Chemical Engineering Manuela Ayee, M.S. Candidate, Chemical Engineering Carls Chua, M.S. Candidate, Mechanical Engineering Sebastian Donner, Ph.D. Candidate, Chemistry Basak Cinlar, Ph.D. Candidate, Chemical Engineering Gloria Pimienta, Ph.D. Candidate, Chemistry Nikola Pekas, Ph.D. Candidate, Chemistry In-Seok Seo, Ph.D. Candidate, Materials Science and Engineering Lisa Ponton, Ph.D. Candidate, Chemistry Christopher Tourek, Ph.D. Candidate, Mechanical Engineering Zheng Li, Ph.D. Candidate, Chemical Engineering


27

Sarah Hruby, Ph.D. Candidate, Chemical Engineering Karen Kwarta, Ph.D. Candidate, Chemistry David W. Keller, Ph.D. Candidate, Chemistry Jason E. Saienga, Ph.D. Candidate, Materials Science and Engineering Grant Edwards, Ph.D. Candidate, Chemistry Saikat Adhikari, Ph.D. Candidate, Chemical Engineering Young-Sik Kim, Ph.D. Candidate, Materials Science and Engineering Beth Rybak, M.S. Candidate, Materials Science and Engineering Maryna Y Ornatska, Ph.D. Candidate, Materials Science and Engineering Sergiy Peleshanko, Ph.D. Candidate, Materials Science and Engineering Salma Rahman, Ph.D. Candidate, Chemistry Chien-Ju Shih, Ph.D. Candidate, Chemistry Dinesh Chandrakant Yeragi, Ph.D. Candidate, Chemical Engineering Saikat Adhikari, Ph.D. Candidate, Chemical Engineering Stephanie D. Loveland, Ph.D. Candidate, Chemical Engineering Basak Sinclair, Ph.D. Candidate, Chemical Engineering Stephanie D. Loveland, Ph.D. Candidate, Chemical Engineering Saikat Adhikari, Ph.D. Candidate, Chemical Engineering Dinesh Chandrakant Yeragi, Ph.D. Candidate, Chemical Engineering Betsy Jean Yakes, Ph.D. Candidate, Chemistry Carly R. Nelson, M.S. Candidate, Materials Science and Engineering Young-Sik Kim, Ph.D. Candidate, Materials Science and Engineering Jason E. Saienga, Ph.D. Candidate, Materials Science and Engineering David W. Keller, Ph.D. Candidate, Chemistry Karen Kwarta, Ph.D. Candidate, Chemistry Billy Bardin, Ph.D. Candidate, Chemical Engineering Alan Hunter, Ph.D. Candidate, Chemical Engineering Jackie Williams, M.S. Candidate, Materials Science and Engineering Adam Smith, Ph.D. Candidate, Chemistry Marta Jakab, Ph.D. Candidate, Materials Science and Engineering Robert Leggat, Ph.D. Candidate, Materials Science and Engineering Wei Zou, Ph.D. Candidate, Materials Science and Engineering Tracy Lunt, Ph.D. Candidate, Chemical Engineering Eric Hansen, Ph.D. Candidate, Chemical Engineering Kevin Cooper, Ph.D. Candidate, Materials Science and Engineering Wen Wang, Ph.D. Candidate, Chemical Engineering Brian Green, Ph.D. Candidate, Chemical Engineering Sanket Desai, Ph.D. Candidate, Chemical Engineering Lisa Smith, Ph.D. Candidate, Chemical Engineering Margot Vigeant, Ph.D. Candidate, Chemical Engineering Kevin Stewart, Ph.D. Candidate, Materials Science and Engineering Shailendra Bordawekar, Ph.D. Candidate, Chemical Engineering Instruction

Semester Course Lab Cr Hr TA Rating+ (# enroll)

Dept. Ave.*

University of Virginia Fall 1996 ENGR 202 Thermodynamics No 4 Yes 3.57 (47) 3.79 Spring 1997 ChEN 322 Mass Transfer & Sep. No 4 Yes 3.79 (56) 3.98


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Fall 1997 ChEN 438 Process Control No 3 Yes 3.93 (56) 4.16 Spring 1998 ChEN 322 Mass Transfer & Sep. No 4 Yes 4.38 (50) 3.86 Sum. 1998 ChEN 215 Mat. and En. Balances No 3 No NA (5) NA Fall 1998 ChEN 438 Process Control No 3 Yes 4.32 (45) 4.02 Fall 1998 ChEN 881 Electrochemistry** No 3 No 4.12 (15) 4.11 Spring 1999 ChEN 322 Mass Transfer & Sep. No 4 Yes 4.05 (54) 3.84 Fall 1999 ChEN 438 Process Control Yes 3 Yes 3.82 (48) 3.82 Spring 2000 ChEN 322 Mass Transfer & Sep. No 4 Yes 3.87 (49) 3.74 Fall 2000 ChEN 438 Process Control Yes 3 Yes 3.41 (47) 3.85 Spring 2001 ChEN 630 Mass Transfer** No 3 No 4.27 (7) 4.12 Spring 2002 ChEN 630 Mass Transfer** No 3 No 4.32 (13) 4.26 Spring 2002 APMA 213 Differential Equations No 4 Yes 4.15 (55) 3.71 Spring 2003 ChEN 630 Mass Transfer** No 3 No 3.9 (16) 3.95 Spring 2003 APMA 213 Differential Equations No 4 Yes 3.92 (51) 3.8 Iowa State University Fall 2003 ChE 382 Reaction Engineering No 3 Yes 3.81 (24) 3.39 Spring 2004 ChE 382 Reaction Engineering No 3 No 4.46 (41) 3.97 Fall 2004 ChE 421 Process Control Yes 3 No 4.16 (35) 3.67 Spring 2005 ChE 421 Process Control Yes 3 No 4.12 (17) 3.8 Fall 2005 ChE 421 Process Control Yes 3 No 4.31 (35) 3.7 Spring 2006 ChE 382 Reaction Engineering No 3 Yes 4.45 (43) 3.55 Fall 2006 ChE 408/508 Surf.&Coll. Chem.** No 3 No 4.73 (23) 3.78 Spring 2007 ChE 421 Process Control Yes 3 No 3.95 (19) 3.83 Fall 2007 ChE 408/508 Surf.&Coll. Chem.** No 3 No 4.43 (14) 3.71 Spring 2008 ChE 421 Process Control Yes 3 No 4.52 (27) 3.94 Fall 2008 ChE 421 Process Control Yes 3 No 4.77 (45) 3.93 Spring 2009 ChE 421 Process Control Yes 3 No 4.96 (26) 3.99 Fall 2009 ChE 381 Thermodynamics Yes 3 No 4.74 (32) - Spring 2010 ChE 382 Reaction Engineering No 3 No 4.32 (56) 3.87 Fall 2010 ChE 421 Process Control Yes 3 No 4.47 (47) 3.97 Spring 2012 ChE 382 Reaction Engineering No 3 No 3.83 (69) 3.7 Fall 2012 ChE 310 Numerical Methods No 3 No 3.89 (88) 3.83 Spring 2013 ChE 421 Process Control Yes 3 Yes 4.07 (48) 3.91 Spring 2014 ChE 202 Seminar No 1 No 4.19 (125) 3.92 Spring 2014 ChE 698X Teaching Practicum No 1 No 4.67 (6) 3.80 Fall 2014 ChE 202 Seminar No 1 No 4.08 (176) 3.98 Fall 2014 ChE 698 Teaching Practicum No 1 No 4.86 (23) 4.4 Fall 2015 ChE 202 Seminar No 1 No 3.98 (208) 3.91 Fall 2015 ChE 695J Nanomaterials No 3 No 3 (9) 4.16 Fall 2015 ChE 698 Teaching Practicum No 1 No 4.61 (23) 4.16 Fall 2016 ChE 202 Seminar No 1 No 4.22 (195) 3.97 Fall 2017 ChE 202 Seminar No 1 No 3.91 (192) 3.94 Spring 2018 ChE 695J Polymer and

Nanomaterials No 3 No 4.29 (9) 3.93

Fall 2018 ChE 202 Seminar No 3 No 4.06 (162) 3.82


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+ ratings: 5=excellent, 0=poor, NA=not available, * average for undergraduate courses (UVa – average for same level in engineering school, ISU – department average), ** graduate course Interdisciplinary and Leadership Activities Program Evaluator (PEV), ABET/EAC (chemical engineering - AIChE), 2017 – present.

Director of W.M. Keck Laboratory for High Throughput and Atom-Scale Analysis.

Lead PI in interdisciplinary proposal to W.M. Keck Foundation to develop “High Throughput

Laboratory for Atom-Scale Analysis.” Courtesy appointment in the Department of Chemistry at ISU – serve on departmental

committees, attend seminars and advise graduate students. Institute for Combinatorial Discovery (ICD) at ISU – member of executive committee and

participant, co-PI and PI on several multidisciplinary research proposals. Co-principal investigator at UVa in multi-disciplinary NIRT grant from NSF to develop

molecular electronic devices for microelectronics. Includes faculty from Chemical Engineering, Chemistry and Electrical Engineering.

Co-principal investigator at UVa in multi-disciplinary grant funded by University of Virginia’s

Fund for Excellence in Science and Technology (FEST) to develop designer interfaces for biological applications. Includes faculty from Chemical Engineering, Chemistry and Biomedical Engineering.

Participant at UVa in the development of several multi-disciplinary ERC and MRSEC proposals

to NSF. Faculty Participant at UVa in Integrative Graduate Education and Research Training Program for

Science and Engineering of Laser Interactions with Matter (SELIM). Affiliated faculty member in Center of Electrochemical Science and Engineering (CESE) at UVa.

Affiliated faculty member in MRSEC Center for Nanoscopic Materials Design at UVa.

PROFESSIONAL ACTIVITIES AND SERVICE University and Departmental Service: Iowa State University Industrial and Manufacturing Systems Engineering, Department Chair Search Committee,

Chair, 2015 – 2016.

Chemical and Biological Engineering, Department Chair, 2013 – present

Chemical and Biological Engineering, Honors and Awards Committee, 2013 – present

Chemical and Biological Engineering, Faculty Search Committee, 2014 - 2015


30

Chemical and Biological Engineering, Lecturer Search Committee, 2014 - 2015

Chemical and Biological Engineering, Development Committee, 2013 – present

Chemical and Biological Engineering, Scholarship Selection Committee, 2013 - 2014

Chemical and Biological Engineering, Associate Chair, 2010 – 2013

Chemical and Biological Engineering, Strategic Planning and Governance Committee, 2010

– present

Chemical and Biological Engineering, Faculty Search Committee, 2011 – 2012. Chemical and Biological Engineering, Centennial Committee, 2011 – 2013

Chemical and Biological Engineering, ABET Coordinator, 2009 – 2013.

Engineering College ABET Committee, 2010 - 2013.

Chemical Engineering Curriculum Committee, 2003 – 2009, Chair: 2004 – 2007, 2009-2013. Member, Internal Review Panel, Camille and Henry Dreyfus Teacher-Scholar Award, 2010,

2011.

Engineering College Student Learning Task Force, 2009-2010.

Faculty Senate Governance Council, 2009.

University Faculty Senate (Engineering Caucus), 2008 – 2011. Engineering College Cluster Hiring Committee, Substitute Member, 2007 – 2009.

Member, Internal Review Panel, Grow Iowa Values Fund, 2008.

Member, Internal Review Panel, W.M. Keck Foundation, 2008.

Member, Internal Review Panel, NSF-MRI White Papers, 2007, 2010. Chemical and Biological Engineering Faculty Search Committee, 2007-8, 2008-9. Engineering College Curriculum Committee, 2005 – 2011.

Department of Chemistry, Graduate Activities Committee, 2005 – 2007. Chemical Engineering Planning and Governance Committee, 2004 – 2008, Chair: 2006-8. Chemistry Graduate Activities Committee, 2005 – 2007. Chemical Engineering Departmental Seminar Coordinator, 2005 – 2006.


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Engineering College Tuition Surcharge Allocation Committee, 2005 - 2006. Chemical Engineering Safety Committee, 2004 – 2005. Chemical Engineering Chair Search Committee, 2004 – 2005. Chemistry Graduate Recruitment Committee, 2004 – 2005. Chemical Engineering Faculty Search Committee, 2003 - 2004.

University of Virginia University Undergraduate Design Symposium Committee, 1997 – 2003, Chair in 2001-2.

University Honors and Awards Committee, 2000 – 2003.

University Gwathmey Award Committee, 2000 – 2003.

Chemical Engineering Faculty Search Committee, 2001 - 2003.

Chemical Engineering Departmental Seminar Coordinator, 2000 - 2002.

Chemical Engineering Graduate Recruiting Coordinator, 1998 – 2000.

Professional Memberships American Society for the Advancement of Science (AAAS), American Society for Engineering Education (ASEE), American Institute of Chemical Engineers (AIChE), American Chemical Society (ACS), Electrochemical Society (ECS), Sigma Xi, Tau Beta Pi. Offices and Organization Leadership Positions Vice Chair, Physical and Analytical Electrochemistry Division (PAED), The Electrochemical

Society, 2019-21.

Program Evaluator (PEV), ABET/EAC (chemical engineering - AIChE), 2017 – present.

Secretary, Physical and Analytical Electrochemistry Division (PAED), The Electrochemical Society, 2017-19.

Interdisciplinary Science & Technology Subcommittee, The Electrochemical Society, 2015-18.

Secretary, Physical and Analytical Electrochemistry Division (PAED), The Electrochemical

Society, 2013-15.

Treasurer, Physical and Analytical Electrochemistry Division (PAED), The Electrochemical Society, 2011-13.


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Executive Committee, Member at Large (elected), Physical and Analytical Electrochemistry Division (PAED), The Electrochemical Society, 2009-11.

The Electrochemical Society, Executive Committee, Councilor, National Capital Section, 2000-1.

The Electrochemical Society, Executive Committee, Chairman, National Capital Section, 1999-0.

The Electrochemical Society, Executive Committee, 2st Vice Chairman and Program Coordinator,

National Capital Section, 1998-9. The Electrochemical Society, Executive Committee, Secretary and Membership Coordinator,

National Capital Section, 1997-8. Symposium Organizer and Conference Chair ECS, Session Organizer and Co-Chair, “Nano/Bio Sensors,” Atlanta, GA, October 2019.

ECS, Session Organizer and Co-Chair, “Electrode Processes 13,” Atlanta, GA, October 2019.

ECS, Session Organizer and Co-Chair, “Spectroelectrochemistry 4,” Dallas, TX, May 2019.

ECS, Session Organizer and Co-Chair, “Impedance Technologies, Diagnostics, and Sensing

Applications 5,” Dallas, TX, May 2019.

ECS, Session Organizer and Co-Chair, “Processes at the Semiconductor Solution Interface 8,” Dallas, TX, May 2019.

AIChE, Session Co-Chair, “Interfacial Phenomena in Electrochemical Systems,” Minneapolis, MN, October 2018.

ECS, Session Organizer and Co-Chair, “Electrode Processes 12,” Cancun, MX, October 2018.

ECS, Session Organizer and Co-Chair, “Physical and Analytical Electrochemistry,

Electrocatalysis, and Photoelectrochemistry General Session,” Cancun, MX, October 2018. AIChE, Session Co-Chair, “Interfacial Phenomena in Electrochemical Systems,”

Minneapolis, MN, November 2017.

ECS, Session Organizer and Co-Chair, “PAED General Session,” New Orleans, LA, May 2017.

ECS, Session Organizer and Co-Chair, “Processes at the Semiconductor Solution Interface 7,” New Orleans, LA, May 2017.

AIChE, Session Co-Chair, “Interfacial Phenomena in Electrochemical Systems,” San

Francisco, CA, November 2016.

ECS, Session Organizer and Co-Chair, “Electrode Processes 11,” Honolulu, HI, October 2016.


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AIChE, Session Co-Chair, “Interfacial Phenomena in Electrochemical Systems,” Salt Lake City, UT, November 2015.

ECS, Session Organizer and Co-Chair, “Electrode Processes 10,” Phoenix, AZ, October 2015.

ECS, Session Organizer and Co-Chair, “Processes at the Semiconductor Solution Interface

6,” Chicago, IL, May 2015. ECS, Session Organizer and Co-Chair, “Spectroelectrochemistry 3,” Chicago, IL, May 2015

ECS, Session Organizer and Co-Chair, “Electrode Processes 9,” Cancun, Mexico, October

2014.

AIChE, Session Co-Chair, “Memorial Session in Honor of James Katzer,” San Francisco, CA, November 2013.

ECS, Session Organizer and Co-Chair, “Electrode Processes 8,” San Francisco, CA, November 2013.

ECS, Session Organizer and Co-Chair, “Processes at the Semiconductor Solution Interface 5,” Toronto, CAN, May 2013.

ECS, Session Judge, “Physical and Analytical Electrochemistry Poster Session,” Toronto, CAN, May 2013.

ECS, Session Co-Chair, “Physical and Analytical Electrochemistry General Session,” Toronto, CAN, May 2013.

ECS, Session Chair, Bioelectrochemistry and Biosensors Session, The Electrochemical Society 221st Annual Meeting, Seattle, WA, May, 2012.

ECS, Session Chair, Energy, Electrochemistry and Scanning Electrochemical Microscopy Session, The Electrochemical Society 221st Annual Meeting, Seattle, WA, May, 2012.

AIChE, Session Co-Chair/Organizer, “Interfacial Aspects of Electrochemical Systems,” Salt

Lake City, Utah, October 2010.

AIChE, Session Co-Chair/Organizer, “Solid-Liquid Interfaces,” Salt Lake City, Utah, October 2010.

AIChE, Session Co-Chair/Organizer, “Interfacial Aspects of Electrochemical Systems,”

Minneapolis, MN, October 2011.

AIChE, Session Co-Chair/Organizer, “Novel Experimental Methods for the Study of Interfacial Phenomena,” Minneapolis, MN, October 2011.

ECS, Session Co-Chair, “Physical and Analytical Electrochemistry General Session,” Boston, MA, October 2011.


34

AIChE, Session Chair/Organizer, “Novel Experimental Methods for the Study of Interfacial Phenomena,” Nashville, TN, November 2009.

MRS Annual Meeting, Session Co-Chair, “Symposium M: Materials Aspects of Fuel Cells,

Combinatorial Approaches and Characterization,” Boston, MA, November 2004. AIChE, Session Co-Chair/Organizer, “Solid-Liquid Interfaces,” Austin, TX, November 2004. Pittsburg Analytical Conference (Pittcon) Meeting Session Chair, “Electrochemistry,” Chicago,

IL, March 2004. AIChE Session Co-Chair/Organizer, “Solid-Liquid Interfaces,” San Francisco, CA, November

2003. AIChE, Session Co-Chair/Organizer, “Solid-Liquid Interfaces,” Indianapolis, IN, November

2002. AIChE, Session Co-Chair/Organizer, "Transport at Interfaces," Reno, NV, November 2001.

AIChE, Session Co-Chair and Organizer, "Novel Experimental Methods in Interfacial Science:

Electrochemical Aspects," Dallas, TX, November 1999. AIChE, Session Co-Chair and Organizer, "Applications of Molecular Thin Films," Dallas, TX,

November 1999. ECS, Session Co-Chair and Organizer, “Localized In-Situ Methods for Investigating

Electrochemical Interfaces,” Honolulu, HA, October 1999. ACS, Session Co-Chair, “Electrochemistry at Nanostructured Materials,” Dallas, TX, March

1998. Editorship(s) and Editorial Board(s)

• The Electrochemical Society’s INTERFACE, editorial board representative 2012-present. Reviewer Papers – average 15-20 per year - Journal of the American Chemical Society, Analytical Chemistry, Chemistry of Materials, Journal of Physical Chemistry B, Langmuir, Journal of the Electrochemical Society, Biosensors & Bioelectronics, Sensors and Materials, Journal of Membrane Science, Journal of Applied Electrochemistry, Journal of the Chemical Society, Faraday Trans., Corrosion Science, Colloids and Surfaces A, Analytica Chimica Acta, Journal of Electroanalytical Chemistry, Proposals – average 5-10 per year - NASA, NSF, DOE, Petroleum Research Fund Invited Review Panels NSF Graduate Research Fellowship Program (GRFP), Division of Chemical Engineering,

Washington, D.C., January 2018.


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NSF Graduate Research Fellowship Program (GRFP), Division of Chemistry, Washington, D.C., January 2017.

NSF MSN Metallic Particles, Division of Chemistry, Washington, D.C., March 2016.

Review Panel, DOE Energy Frontier Research Centers (EFRC), 2012.

Review Panel, NIH SBIR Program, Phase I and II, 2010. NSF Sensors Single Investigator, Chemical and Transport Systems Division, Washington, D.C.,

May 2005. NSF Small Business Innovative Research (SBIR) Program, Phase I, Washington, D.C.,

September 2003. NSF SBIR Program, Phase I, Washington, D.C., September 2002.

NSF SBIR Program, Phase II, Washington, D.C., March 2001.

NSF SBIR Program, Phase I, Washington, D.C., August 2000.

NSF New Technology for the Environment, Washington, D.C., July 2000.

NSF XYZ on a Chip Program, Washington, D.C. March 2000.

NSF SBIR Program, Phase I, Washington, D.C., August, 1999.

NSF Small Business Technology Transfer Research Program, Phase I, Washington, D.C., March,

1999. NSF Engineering Research Equipment Grant Program, Washington, D.C., March, 1998.

Professional Teaching Activities and Workshops University of Virginia Teaching Fellows Program, 1999-2000.

ASEE Summer School for Chemical Engineering Faculty, Snowbird Utah, Aug. 9-14, 1997.

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