BRIAN D. JENSEN Provo, UT 84602

BRIAN D. JENSEN

435 CTBBrigham Young UniversityProvo, UT 84602

(801) [email protected]

Research Interests

Design and fabrication of MEMS, especially bio-MEMSMulti-domain modeling of MEMSDesign of compliant mechanisms, especially bistable mechanismsContact resistance of MEMS devices, including nanometer-scale tribology

Education

Ph.D., University of Michigan, Mechanical Engineering, December 2004.Dissertation: Multi-Physics Modeling and Experimental Investigation of Low-Force MEMS Switch ContactBehavior. GPA 8.9/9.0Chair: Katsuo Kurabayashi.

M.S., University of Michigan, Electrical Engineering, Aug. 2004.Emphasis in electromagnetic engineering. GPA 8.9/9.0Advisor: John L. Volakis.

M.S., Brigham Young University, Mechanical Engineering, Aug. 1998.Thesis: Identification of Macro- and Micro-Compliant Mechanism Configurations Resulting in Bistable Be-havior. GPA 3.98/4.0Chair: Larry L. Howell.

B.S., Brigham Young University, Mechanical Engineering, Aug. 1996.Graduation Summa Cum Laude, Minor in Mathematics. GPA 3.98/4.0

Professional Experience

Professor, Sept. 2016–present, Associate Professor, Sept. 2011–Aug. 2016, Assistant Professor, Jan.2005–Aug. 2011Brigham Young University, Provo, UTTeaching and research in the Mechanical Engineering Department. Research focus on MEMS sensors andactuators, especially bio-MEMS.

Postdoctoral Fellow, Oct. 2004–Dec. 2004University of Michigan, Ann Arbor, MIResearch in adhesion of MEMS switch contacts and nanometer-scale modeling of insulating films coveringthe contact surfaces.

Research Assistant, June 2000–Oct. 2004University of Michigan, Ann Arbor, MI

Research in tunable micro-resonators and reliability modeling and testing of RF MEMS switches, with focuson factors affecting contact resistance and contact adhesion.

Graduate Student Instructor, Sept. 2003–Dec. 2003University of Michigan, Ann Arbor, MITaught about 90 undergraduates in mechanism and machine design.

Graduate Student Instructor, Jan. 2001–April 2001University of Michigan, Ann Arbor, MITaught a graduate course on micro-electro-mechanical systems.

Micro-Mechanical Designer, May 1998–Aug. 1999Sandia National Laboratories, Albuquerque, NMCreated novel MEMS designs for self-assembling pop-up mirrors, micro-tensile test systems, and tun-able micro-resonators. Developed high-precision technique for measuring mechanical properties of micro-mechanical materials.

Research Assistant, Sept. 1996–May 1998Brigham Young University, Provo, UTDesign of compliant bistable macro- and micro-mechanisms.

Honors and Awards

Outstanding Teaching Award, 2017. Mechanical Engineering Department, Brigham Young University.

Best Paper Award, Third Place, 2016. ASME International Design Engineering Technical Conferences,10th Int. Conference on Micro- and Nano-Systems. Paper title, “Patterned Carbon Nanotube Growth onConvex Cylindrical Stainless Steel Substrates for the Production of Coronary Stents,” by Warren Robison,Brian Jensen, and Anton Bowden.

Best Paper Award, First Place, 2015. ASME International Design Engineering Technical Conferences,9th Int. Conference on Micro- and Nano-Systems. Paper title, “Injection Force Effects on Propidium IodideUptake in Nanoinjected HeLa Cells,” by Tyler Lewis, Sandra Burnett, and Brian Jensen.

Outstanding Faculty Award, 2010. Mechanical Engineering Department, Brigham Young University.

Utah Engineering Educator of the Year Award, 2010. Awarded by the Utah Engineers Council, nominatedby ASME.

Brigham Young University Young Scholar Award, 2009. This award includes a stipend and research grantfor three years.

Compliant Mechanisms Application Award, 2008. ASME Design Engineering Technical Conferences,32nd Mechanisms and Robotics Conference. Paper title “Viscoelastic Damping of Ortho-Planar Springs,”by Sterling Anderson and Brian Jensen.

Best Paper Award, 2007. ASME Design Engineering Technical Conferences, 1st Int. Conference on Micro-and Nanosystems. Paper title “Simultaneous On-Chip Sensing and Actuation Using the ThermomechanicalIn-Plane Microactuator,” by Tyler Waterfall, Kendall Teichert, and Brian Jensen.

Compliant Mechanisms Application Award, 2007. ASME Design Engineering Technical Conferences,31st Mechanisms and Robotics Conference. Paper title “A Compliant Rotating Joint for Deployable Wingson Small UAVS,” by Steve Landon, Spencer Magleby, and Brian Jensen.

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National Defense Science and Engineering Graduate Fellowship, 2002. Tuition and stipend support forthree years.

Second Place Nationally, ASME Graduate Mechanism Design Contest, Oct. 2002. Project title “A Fully-Compliant Bistable Micro-Mechanism.”

Dwight F. Benton Fellowship, College of Engineering, University of Michigan, Sept. 1999.

Horace H. Rackham Dean’s Fellowship, University of Michigan, Sept. 1999.

Third Place Nationally, ASME Graduate Mechanism Design Contest, Sept. 1998. Project title “The Designand Fabrication of a Bistable Micro-Mechanism.”

National Science Foundation Graduate Research Fellowship, 1997. Tuition and stipend support for threeyears.

Design of Significant Merit Award, Eaton Mechanism Design Contest, 1997.

Publications

Edited Books

1. L. Zentner, B. Corves, B. Jensen, and E.C. Lovasz, Eds., Mechanisms and Machine Science: Microactu-ators and Micromechanisms, Switzerland: Springer, 2016.

Manuscripts in Edited Books

1. B. D. Jensen, J. Tanner, B. Edmondson, C. Grames, S. P. Magleby, and L. H. Howell, “Design andFabrication of Millimeter-Scale Crossed-Cylinder Wrist Mechanism with Two Degrees of Feedom,” inMechanisms and Machine Science, vol. 30, E. C. Lovasz, G. K. Ananthasuresh, B. Corves, and V. Petuya,Eds. Switzerland: Springer, pp. 133–141, 2015.

2. B. D. Jensen, “Modelling of Large-deflection Members,” in Handbook of Compliant Mechanisms, L.L.Howell, S.P. Magleby, B.M. Olsen, Eds. Wiley, pp. 45–53, 2013.

3. N. D. Masters, M. P. de Boer, B. D. Jensen, M. S. Baker, and D. Koester, “Side-by-side comparison ofpassive MEMS residual strain test structures under residual compression,” in Mechanical Properties ofStructural Films, ASTM STP 1413, S. B. Brown and C. L. Muhlstein, Eds. American Society for Testingand Materials, 2001.

Manuscripts in Archival Journals

1. D. Syme, J. Lund, B.D. Jensen, R.C. Davis, R.R. Vanfleet, and B.D. Iverson “Porous Silica NanotubeThin Films as Thermally Insulating Barrier Coatings” ACS Applied Nanomaterials, Vol. 3, No. 4, pp.3168–3173, 2020.

2. B. Sargent, J. Butler, K. Seymour, D. Bailey, B. Jensen, S. Magleby, and L. Howell, “An Origami-BasedMedical Support System to Mitigate Flexible Shaft Buckling,” Journal of Mechanisms and Robotics, vol.12, No. 4, pp. 041005-1 – 041005-12, 2020.

3. P. Schepf, A. Davis, B.D. Iverson, R. Vanfleeet, R.C. Davis, and B.D. Jensen, “Closed-Loop, Axial Tem-perature Control of Etched Silicon Microcolumn for Tunable Thermal Gradient Gas Chromatography,”Journal of Microelectromechanical Systems, vol. 29, pp. 76–85, 2020.

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4. B. Sargent, N. Brown, B.D. Jensen, S.P. Magleby, W.G. Pitt, and L.L. Howell, “Heat set creases inpolyethylene terephthalate (PET) sheets to enable origami-based applications,” Smart Materials and Struc-tures, vol. 28, paper 115047, 2019.

5. F. Fagergren, S. Sypherd, D. Snow, A. Cunningham, and B.D. Jensen, “Using non-destructive testing topredict bending modulus of carbon infiltrated- carbon nanotubes,” J. Micromech. Microeng., vol. 29,paper 115015, 2019.

6. K. Stevens, C. Esplin, T. Davis, D. Butterfield, P. Ng, A. Bowden, B. Jensen, and B. Iverson, “Superhy-drophobic, carbon-infiltrated carbon nanotubes on silicon and 316L stainless steel with tunable geometry,”Applied Physics Letters, vol. 112, DOI 10.1063/1.5034471, 2018.

7. J. Dearden, C. Grames, J. Orr, B. D. Jensen, S. P. Magleby, and L. L. Howell, “Cylindrical Cross-AxisFlexural Pivots,” Precision Engineering, vol. 51, pp. 604-613, DOI 10.1016/j.precisioneng.2017.11.001,2018.

8. J. Dearden, C. Grames, B. D. Jensen, S. P. Magleby, and L. L. Howell, “Inverted L-Arm Gripper Compli-ant Mechanism,” J. Medical Devices, pp. 034502-1–034502-6, 2017.

9. J. W. Sessions, D. G. Armstrong, S. Hope, and B. D. Jensen, “A Review of Genetic Engineering Biotech-nologies for Enhanced Chronic Wound Healing,” Experimental Dermatology, doi: 10.1111/exd.13185,2016.

10. J. W. Sessions, T. E. Lewis, C.S. Skousen, S. Hope, and B. D. Jensen, “The effect of injection speed andserial injection on propidium iodide entry into cultured HeLa and primary neonatal fibroblast cells usinglance array nanoinjection,” SpringerPlus, vol. 5:1093, 2016.

11. J. W. Sessions, C. S. Skousen, K. D. Price, B. W. Hanks, S. Hope, J. K. Alder, and B. D. Jensen, “CRISPR-Cas9 Directed Knock-Out of Constitutively Expressed Gene using Lance Array Nanoinjection,” Springer-Plus, vol. 5:1521, 2016.

12. J. W. Sessions, D. L. Lindstrom, B. W. Hanks, S. H. Hope, and B. D. Jensen, “The Effect of Lance Geom-etry and Carbon Coating of Silicon Lances on Propidium Iodide Uptake in Lance Array Nanoinjection ofHeLa 229 Cells,” Journal of Micromechanics and Microengineering, vol. 26, paper 045002, 2016.

13. J. W. Sessions, B. W. Hanks, D. L. Lindstrom, S. H. Burnett, and B. D. Jensen, “Transient Low Tempera-ture Effects on Propidium Iodide Uptake in Lance Array Nanoinjected HeLa Cells,” Journal of Nanotech-nology in Engineering and Medicine, vol. 6, paper 041005, 2015.

14. C. Vilorio, B. Stark, A. Hawkins, K. Frogget, and B. Jensen, “Stress Relaxation Insensitive Designs forMetal Compliant Mechanism Threshold Accelerometers,” Sensing and Bio-Sensing Research, vol. 6, pp.33–38, 2015.

15. J. D. Tanner, C. Grames, B. D. Jensen, S. P. Magleby, and L. L. Howell, “Millimeter-Scale RoboticMechanisms Using Carbon Nanotube Composite Structures," Journal of Mechanisms and Robotics, Vol.7, No. 2, paper 021001 (7 pages), 2015.

16. Z. K. Lindstrom, S. J. Brewer, M. A. Ferguson, S. H. Burnett, and B. D. Jensen, “Injection of Propid-ium Iodide into HeLa Cells Using a Silicon Nanoinjection Lance Array,” Journal of Nanotechnology inEngineering and Medicine, vol. 5, paper no. 021008 (7 pages), 2014.

17. B. H. Hanna, W. C. Fazio, J. D. Tanner, J. M. Lund, T. S. Wood, R. C. Davis, R. R. Vanfleet, and B.D. Jensen, “Mechanical Property Measurement of Carbon Infiltrated Carbon Nanotube Structures forCompliant Mechanisms,” Journal of Microelectromechanical Systems, vol. 23, no. 6, pp. 1330–1339,2014.

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18. Q. T. Aten, B. D. Jensen, S. H. Burnett, and L. L. Howell, “A Self-reconfiguring Metamorphic Nanoin-jector for Injection into Mouse Zygotes,” Review of Scientific Instruments, vol. 85, paper no. 055005,2014.

19. N. C. Toone, W. C. Fazio, J. M. Lund, G. H. Teichert, B. D. Jensen, S. H. Burnett, and L. L. Howell,“Investigation of unique carbon nanotube cell restraint compliant mechanisms,” Mechanics-based Designof Structures and Machines, vol. 42, no. 3, pp. 343–354, 2014.

20. J. D. Tanner and B. D. Jensen, “Power-free Bistable Threshold Accelerometer Made from a Carbon Nan-otube Framework,” Mechanical Sciences, vol. 4, pp. 397–405, 2013.

21. K. Jones, B. D. Jensen, and A. Bowden, “Fabrication and Testing of Planar Stent Mesh Designs usingCarbon Infiltrated Carbon Nanotubes,” J. Nanotechnology in Engineering and Medicine, vol. 4, no. 2,paper no. 020903 (7 pages), 2013.

22. G. H. Teichert, S. H. Burnett, and B. D. Jensen, “A Microneedle Array Able to Inject Tens of Thousandsof Cells Simultaneously,” Journal of Micromechanics and Microengineering, Vol. 23, paper no. 095003(10pp), 2013.

23. G. H. Teichert and B. D. Jensen, “Design and Fabrication of a Fully-Compliant Mechanism for Controlof Cellular Injection Arrays,” Production Engineering Research and Development, Vol. 7, pp. 561–568,2013.

24. A. M. Wilson, Q. T. Aten, N. C. Toone, J. L. Black, B. D. Jensen, S. Tamowski, L. L. Howell, and S. H.Burnett, “Transgene delivery via intracellular electroporetic nanoinjection,” Transgenic Research,Vol. 22,pp. 993–1002, 2013.

25. G. H. Teichert, Q. T. Aten, S. H. Burnett, L. L. Howell, and B. D. Jensen, “Single-degree-of-freedomspatial mechanisms for cell constraint,” J. Mechanisms and Robotics, Vol. 4, DOI: 10.1115/1.4006189,2012.

26. R. A. David, B. D. Jensen, J. L. Black, S. H. Burnett, and L. L. Howell, “Study of design parame-ters affecting the motion of DNA for nanoinjection,” J. Micromechanics and Microengineering, Vol 22,DOI:10.1088/0960-1317/22/5/055006, 2012.

27. K. Moulton, N. B. Morrill, A. M. Konneker, B. D. Jensen, R. R. Vanfleet, D. D. Allred, and R. C.Davis, “Effect of iron catalyst thickness on vertically aligned carbon nanotube forest straightness forCNT-MEMS,” J. Micromechanics and Microengineering, vol. 22, DOI: 10.1088/0960-1317/22/5/055006,2012.

28. Q. T. Aten, B. D. Jensen, S. Tamowski, A. M. Wilson, L. L. Howell, and S. H. Burnett, “Nanoinjection:Pronuclear DNA Delivery using a Charged Lance,” Transgenic Research, DOI 10.1007/s11248-012-9610-6, Vol. 21, No. 6, pp. 1279-1290, 2012.

29. A. B. Mackay, D. G. Smith, S. P. Magleby, B. D. Jensen, and L. L. Howell, “Metrics for evaluation anddesign of large-displacement linear-motion compliant mechanisms,” J. Mechanical Design, vol. 134, no.1, p. 011008, 2012.

30. Q. Aten, B. D. Jensen, and L. L. Howell, “Geometrically Non-linear Analysis of Thin-film CompliantMEMS via Shell and Solid Elements,” Finite Elements in Analysis and Design, vol. 49, pp. 70–77, 2012.

31. Q. T. Aten, B. D. Jensen, S. H. Burnett, and L. L. Howell, “Electrostatic accumulation and release of DNAusing a micromachined lance,” J. MEMS, vol. 20, no. 6, pp. 1449–1461, 2011.

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32. Q. T. Aten, S. A. Zirbell, B. D. Jensen, and L. L. Howell, “A numerical method for position analysis ofcompliant mechanisms with more degrees of freedom than inputs,” J. Mechanical Design, vol. 133, no. 6,p. 061009, June 2011.

33. G. L. Holst, G. H. Teichert, and B. D. Jensen, “Modeling and experiments of buckling modes and deflec-tion of fixed-guided beams in compliant mechanisms,” J. Mechanical Design, vol. 133, no. 5, p. 051002,May 2011.

34. R. A. David, B. D. Jensen, J. L. Black, S. H. Burnett, and L. L. Howell, “Effects of dissimilar electrodematerial and electrode position on DNA motion during electrophoresis,” J. Nanotechnology in Engineer-ing and Medicine, vol. 2, p. 021014, 2011.

35. D. G. Smith, Q. T. Aten, B. D. Jensen, and L. L. Howell, “Piezoresistive encoders for ratcheting actuationsystems,” Sensors and Actuators A: Physical, vol. 165, pp. 173–180, 2011.

36. R. A. David, B. D. Jensen, J. L. Black, S. H. Burnett, and L. L. Howell, “Modeling and experimental vali-dation of DNA motion in uniform and non-uniform DC electric fields,” J. Nanotechnology in Engineeringand Medicine, vol. 1, no. 4, doi. 041007.1-8, 2010.

37. B. Todd, B. D. Jensen, S. M. Schultz, and A. R. Hawkins, “Design and testing of a thin-flexure bistablemechanism suitable for stamping from metal sheets,” J. Mechanical Design, vol. 132, no. 7, pp. 071011-1–071011-7, 2010.

38. G. Larsen, L. L. Howell, and B. D. Jensen, “Torsional piezoresistive effect in polysilicon,” IEEE SensorsJournal, vol. 10, no. 10, pp. 1566–1570, 2010.

39. D. N. Hutchison, N. B. Morrill, Q. Aten, B. W. Turner, B. D. Jensen, L. L. Howell, R. R. Vanfleet, and R. C.Davis, “Carbon nanotubes as a framework for high-aspect-ratio MEMS fabrication,” J. Microelectromech.Syst., vol. 19, no. 1, pp. 75–82, 2010.

40. G. Chen, Q. T. Aten, S. Zirbel, B. D. Jensen, and L. L. Howell, “A tristable mechanism configurationemploying orthogonal compliant mechanisms,” J. Mechanisms and Robotics, vol. 2, pp. 14501-1–14501-6, Feb. 2010.

41. B. Todd, M. Phillips, S. M. Schultz, A. R. Hawkins, and B. D. Jensen, “Low cost RFID threshold shocksensors,” IEEE Sensors Journal, vol. 9, no. 4, pp. 464–469, April 2009.

42. M. M. Shalaby, Z. Wang, L. L.-W. Chow, B. D. Jensen, J. L. Volakis, K. Kurabayashi, and K. Saitou,“Robust design of RF-MEMS cantilever switches using contact physics modeling,” IEEE Transactions onIndustrial Electronics, vol. 54, no. 4, pp. 1012–1021, April 2009.

43. T. M. Pendleton and B. D. Jensen, “Compliant wireform mechanisms,” J. Mech. Design, vol. 130, no. 12,paper no. 122303, Dec. 2008.

44. T. L. Waterfall, K. B. Teichert, and B. D. Jensen, “Simultaneous on-chip sensing and actuation usingthe thermomechanical in-plane microactuator,” J. Microelectromechanical Systems, vol. 17, no. 5, pp.1204–1209, Oct. 2008.

45. K. Teichert and B. D. Jensen, “Thermal correction values for analysis of lineshape microstructure arrays,”Sensors and Actuators A: Physical, vol. 148, no. 1, pp. 168–175, Nov. 2008.

46. B. B. Cherry, L. L. Howell, and B. D. Jensen, “Evaluating three-dimensional effects on the behavior ofcompliant bistable micromechanisms,” J. Micromech. Microeng., vol. 18, no. 9, p. 095001 (10pp), 2008.

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47. G. K. Johns, L. L. Howell, B. D. Jensen, and T. W. McLain, “A model for predicting the piezoresistiveeffect in microflexures experiencing bending and tension loads,” J. Microelectromech. Syst., vol. 17, no.1, pp. 226–235, Feb. 2008.

48. T. L. Waterfall, G. K. Johns, R. K. Messenger, B. D. Jensen, T. W. McLain, and L. L. Howell, “Obser-vations of piezoresistivity for polysilicon in bending that are unexplained by linear models,” Sensors andActuators A: Physical, vol. 141, no. 2, pp. 610–618, Feb. 2008.

49. B. J. Hansen, C. J. Carron, B. D. Jensen, A. R. Hawkins, and S. M. Schultz, “Plastic latching accelerometerbased on bistable compliant mechanisms,” Smart Mater. Struct., vol. 16, no. 5, pp. 1967-1972, Oct. 2007.

50. T. S. Lemmon, E. R. Homer, B. S. Fromm, D. T. Fullwood, B. D. Jensen, and B. L. Adams, “Heteroge-neous microstructure sensitive design for performance optimization of MEMS switch,” Journal of Metals,vol. 59, no. 9, pp. 43–48, 2007.

51. L. L.-W. Chow, Z. Wang, B. D. Jensen, K. Saitou, J. L. Volakis, and K. Kurabayashi, “Skin-effect self-heating in air-suspended RF MEMS transmission-line structures,” J. Microelectromech. Syst., vol. 15, no.6, pp. 1622–1631, Dec. 2006.

52. Z. Wang, B. D. Jensen, L. W. Chow, J. L. Volakis, K. Saitou, and K. Kurabayashi, “Full-wave electromag-netic and thermal modeling for the prediction of heat-dissipation-induced RF-MEMS switch failure,” J.Micromech. Microeng., vol. 16, no. 1, pp. 157–164, 2006.

53. B. D. Jensen, L. W. Chow, K. Huang, K. Saitou, J. L. Volakis, and K. Kurabayashi, “Effect of nanoscaleheating on electrical transport in RF MEMS switch contacts,” J. Microelectromech. Syst., vol. 14, no. 5,pp. 935–946, 2005.

54. B. D. Jensen, K. Huang, L. W. Chow, and K. Kurabayashi, “Adhesion effects on contact opening dynamicsin micromachined switches,” J. Applied Physics, vol. 97, 103536, 2005.

55. B. D. Jensen, K. Huang, L. W. Chow, and K. Kurabayashi, “Low-force contact heating and softeningusing micromechanical switches in diffusive-ballistic electron transport transition,” Appl. Phys. Lett., vol.86, 023507, 2005.

56. B. D. Jensen and L. L. Howell, “Bistable configurations of compliant mechanisms modeled using fourlinks and translational joints,” J. Mechanical Design, vol. 126, no. 4, pp. 657–666, 2004.

57. B. D. Jensen and L. L. Howell, “Identification of compliant pseudo-rigid-body mechanism configurationsresulting in bistable behavior,” J. Mechanical Design, vol. 125, no. 4, pp. 701–708, 2003.

58. B. D. Jensen, K. Saitou, J. Volakis, and K. Kurabayashi, “Fully integrated electrothermal multidomainmodeling of RF MEMS switches,” IEEE Microwave Wireless Compon. Lett., vol. 13, no. 9, pp. 364–366,Sept. 2003.

59. B. D. Jensen, S. Mutlu, S. Miller, K. Kurabayashi, and J. J. Allen, “Shaped comb fingers for tailoredelectro-mechanical restoring force,” J. Microelectromech. Syst., vol. 12, no. 3, pp. 373–383, June 2003.

60. B. D. Jensen and L. L. Howell, “The modeling of cross-axis flexural pivots,” Mechanism and MachineTheory, vol. 37, no. 5, pp. 461–476, 2002.

61. B. D. Jensen, M. P. de Boer, N. D. Masters, F. Bitsie, and D. A. LaVan, “Interferometry of actuatedmicrocantilevers to determine material properties and test structure nonidealities in MEMS,” J. Micro-electromech. Syst., vol. 10, no. 3, pp. 336–346, Sept. 2001.

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62. B. T. Edwards, B. D. Jensen, and L. L. Howell, “A pseudo-rigid-body model for initially-curved pinned-pinned segments used in compliant mechanisms,” J. Mechanical Design, vol. 123, no. 3, pp. 464–468,2001.

63. B. D. Jensen, L. L. Howell, and L. G. Salmon, “Design of two-link, in-plane, bistable compliant micro-mechanisms,” J. Mechanical Design, vol. 121, no. 3, pp. 416–423, 1999.

64. S. C. Bromley, L. L. Howell, and B. D. Jensen, “Determination of maximum allowable strain for polysil-icon micro devices,” Engineering Failure Analysis, vol. 6, no. 1, pp. 27–41, 1999.

Manuscripts in Peer-Reviewed Conference Proceedings

1. S. Voss, B. Mecham, L. Bowden, J. Monroe, A.E. Bowden, and B.D. Jensen, “316L Stainless SteelSensitization in Carbon Nanotube CVD Growth for Bacterial Resistance,” in Proceedings of ASME 2020International Design Engineering Technical Conferences & Computers and Information in EngineeringConference, IDETC2020-22391, Aug. 2020.

2. S. Morco, J. Larsen, B.D. Jensen, and A.E. Bowden, “Carbon-Infiltrated Carbon Nanotube Coating Ap-plications: Scalpel Blades and External Fixators,” in Proceedings of the SAMPE Technical Conference,TP20-0000000340, July 2020.

3. A. Cunningham and B.D. Jensen, “Simulation of a Micro-electro-mechanical System for Generating Elec-trical Power from Pressurized Gas,” in Proceedings of the ASME International Design Engineering Tech-nical Conferences, Anaheim, CA, Aug. 18–21, IDETC2019-97923, 2019.

4. T. Brown, S. Hope, and B.D. Jensen, “Fabrication and Testing of a MEMS System for Injection of DNAinto Plant Cells,” in Proceedings of the ASME International Design Engineering Technical Conferences,Anaheim, CA, Aug. 18–21, IDETC2019-98019, 2019.

5. D.G. Prawitt, D. Porter, and B.D. Jensen, “Patterned Carbon Nanotube Growth on Stainless Steel,” inProceedings of the ASME International Design Engineering Technical Conferences, Quebec City, Quebec,Aug. 26–29, DETC2018-86130, 2018.

6. R. Packer, B.D. Jensen, and A.E. Bowden, “Design and Modeling of a Prosthetic Venous Valve,” inProceedings of the ASME International Design Engineering Technical Conferences, Quebec City, Quebec,Aug. 26–29, DETC2018-86164, 2018.

7. B. Sargent, S.P. Magleby, B.D. Jensen, and L.L. Howell, “Retractable Anti-Buckling Support Systemsfor Flexible Medical Devices,” in Proceedings of the ASME International Design Engineering TechnicalConferences, Quebec City, Quebec, Aug. 26–29, DETC2018-86056, 2018.

8. B. Sargent, M. Bean, D. Wood, B.D. Jensen, S.P. Magleby, and L.L. Howell, “Zipper Tube Reinforcementto Mitigate Flexible Shaft Buckling,” in Proceedings of the 4th IEEE/IFToMM International Conferenceon Reconfigurable Mechanisms and Robots, DOI 978-1-5386-6380-6/18, June 2018.

9. D. J. Skousen, K. N. Jones, T. Kowalski, A. E. Bowden, and B. D. Jensen, “Exploration of Carbon-filled Carbon Nanotube Vascular Stents,” in Mechanisms and Machine Science: Microactuators and Mi-cromechanisms, vol. 45, L. Zenter, B. Corves, B. Jensen, and E.C. Lovasz, Eds. Switzerland: Springer,pp. 103–114, 2016.

10. W. Robison, A. Bowden, and B. Jensen, “Patterned Carbon Nanotube Growth on Convex CylindricalStainless Steel Substrates for the Production of Coronary Stents,” in Proceedings of the ASME Interna-tional Design Engineering Technical Conferences, Charlotte, NC, Aug. 21–24, DETC2016-60243, 2016.

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11. T. H. Jones and B D. Jensen, “System for In Vivo Nanoinjection of Tissues,” in Proceedings of the ASMEInternational Design Engineering Technical Conferences, Charlotte, NC, Aug. 21–24, DETC2016-60033,2016.

12. C. L. Grames, B. D. Jensen, S. P. Magleby, and L. L. Howell, “A Compact 2 Degree of Freedom Wristfor Robot-actuated Surgery and Other Applications”, in Proceedings of the ASME International DesignEngineering Technical Conferences, Charlotte, NC, Aug. 21–24, DETC2016-60070, 2016.

13. T. E. Lewis, S. H. Burnett, and B. D. Jensen, “Injection Force Effects on Propidium Iodide Uptake inNanoinjected HeLa Cells,” in Proceedings of the ASME International Design Engineering Technical Con-ferences, Boston, MA, Aug. 2–5, DETC2015-47630, 2015.

14. C. L. Grames, J. D. Tanner, B. D. Jensen, S. P. Magleby, J. R. Steger, and L. L. Howell, “A Meso-scaleRolling-contact Gripping Mechanism for Robotic Surgery,” in Proceedings of the ASME InternationalDesign Engineering Technical Conferences, Boston, MA, Aug. 2–5, DETC2015-46516, 2015.

15. J. W. Sessions, B. W. Hanks, T. E. Lewis, B. D. Jensen, D. L. Lindstrom, and S. H. Burnett, “SalineSolution Effects on Propidium Iodide Uptake in Nanoinjected HeLa Cells,” in Proceedings of the ASMEInternational Design Engineering Technical Conferences, Buffalo, New York, Aug. 17–20, DETC2014-35431, 2014.

16. Z. K. Lindstrom, N. Gregory, and B. D. Jensen, “Design and Testing of an Automated Multi-cell Nanoin-jection System,” Proceedings of the ASME International Design Engineering Technical Conferences, Buf-falo, New York, Aug. 17–20, DETC2014-35122, 2014.

17. G. M. Warnick, Y. S. Wong, B. D. Jensen, S. P. Magleby, G. Roach, and M. Parkinson, “Establishing anImmersive Cross-Cultural Experiential Learning and Design Collaboration for Engineering Students andFaculty,” in American Society for Engineering Education Annual Conference & Exhibit, 2014.

18. K. Jones, B. D. Jensen, and A. Bowden, “Fabrication and Testing of Planar Stent Mesh Designs usingCarbon Infiltrated Carbon Nanotubes,” in Proceedings of the ASME International Design EngineeringTechnical Conferences, Portland, OR, Aug. 4–7, DETC2013-13297, 2013.

19. Z. K. Lindstrom, S. J. Brewer, M. A. Easter, B. D. Jensen, and S. H. Burnett, “Injections of PropidiumIodide into HeLa Culture Cells using a Nanoinjection Lance Array,” in Proceedings of the ASME Interna-tional Design Engineering Technical Conferences, Portland, OR, Aug. 4–7, DETC2013-13281, 2013.

20. S. A. Zirbel, Q. T. Aten, M. Easter, B. D. Jensen, and L. L. Howell, “Compliant Constant-Force Micro-Mechanism for Enabling Dual-Stage Motion,” in Proceedings of the ASME International Design Engi-neering Technical Conferences, Chicago, IL., Aug. 12–15, DETC2012-70321, 2012.

21. P. J. Pluimers, N. Tolou, B. D. Jensen, L. L. Howell, and J. L. Herder, “A Compliant On/Off ConnectionMechanism for Preloading Statically Balanced Compliant Mechanisms,” in Proceedings of the ASMEInternational Design Engineering Technical Conferences, Chicago, IL., Aug 12-15, DETC2012-71509,2012.

22. G. H. Teichert, Q. T. Aten, M. Easter, S. H. Burnett, L. L. Howell, and B. D. Jensen, “A metamorphicerectable cell restraint (MECR),” in Proceedings of the ASME International Design Engineering TechnicalConferences, Chicago, IL., Aug 12-15, DETC2012-70475, 2012.

23. N. C. Toone, G. H. Teichert, S. J. Brewer, and B. D. Jensen, “Modeling, fabrication, and testing of ananoinjection lance array for simultaneous multi-cell injections,” in Proceedings of the ASME Interna-tional Design Engineering Technical Conferences, Chicago, IL., Aug 12-15, DETC2012-70741, 2012.

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24. N. C. Toone and B. D. Jensen, “Effects of voltage and distance on stand-alone lance electrodes during re-pulsion,” in Proceedings of the ASME International Design Engineering Technical Conferences, Chicago,IL., Aug 12-15, DETC2012-70473, 2012.

25. G. L. Holst and B. D. Jensen, “A Silicon Thermomechanical In-Plane Microactuation System for LargeDisplacements in Aqueous Environments,” in Proceedings of the ASME 2011 International MechanicalEngineering Congress and Exposition, no. IMECE2011-64268, 2011.

26. M. Fernelius, N. Toone, B. D. Jensen, S. Burnett, and L. Howell, “Preliminary Studies of Stand-AloneLance Concepts for Nanoinjection of DNA,” in Proceedings of the ASME 2011 International MechanicalEngineering Congress and Exposition, no. IMECE2011-64026, 2011.

27. W. C. Fazio, J. M. Lund, T. S. Wood, B. D. Jensen, R. C. Davis, and R. R. Vanfleet, “Material Prop-erties of Carbon-Infiltrated Carbon Nanotube-Templated Structures for Microfabrication of CompliantMechanisms,” in Proc. ASME 2011 International Mechanical Engineering Congress and Exposition,no. IMECE2011-64168, 2011.

28. N. C. Toone and B. D. Jensen, “Determining Necessary Parameters for Nanoinjector Electrodes DuringAttraction,” in Proc. ASME 2011 Int. Design Eng. Tech. Conf., no. DETC2011-47320.

29. B. D. Jensen and C. H. Jenkins, “Design of Small-scale Statically Balanced Compliant Joints,” in Proc.ASME 2011 Int. Design Eng. Tech. Conf., no. DETC2011-47482.

30. G. T. Larsen, L. L. Howell, and B. D. Jensen, “Integrated Piezoresistive Flexure Model in Polysilicon,” inProc. ASME 2011 Int. Design Eng. Tech. Conf., no. DETC2011-47902.

31. G. Holst, G. H. Teichert, and B. D. Jensen, “Prediction Model for Buckling Modes and Deflection of aFixed-Guided Beam,” in Proc. ASME 2010 Int. Design Eng. Tech. Conf., no. DETC2010-29076, 2010.

32. R. David, J. L. Black, B. D. Jensen, and S. H. Burnett, “Modeling and Experimental Validation of DNAMotion during Electrophoresis,” in Proc. ASME 2010 Int. Design Eng. Tech. Conf., no. DETC2010-28541,2010.

33. Q. T. Aten, S. A. Zirbel, B. D. Jensen, and L. L. Howell, “A Numerical Method for Position Analysis ofCompliant Mechanisms with More Degrees of Freedom than Inputs,” in Proc. ASME 2010 Int. DesignEng. Tech. Conf., no. DETC2010-28474, 2010.

34. R. David and B. D. Jensen, “Modeling DNA motion under electrostatic repulsion within a living cell,” inProc. ASME 2009 Int. Design Eng. Tech. Conf., no. DETC2009-87413, 2009.

35. S. Anderson and B. D. Jensen, “Viscoelastic damping of ortho-planar springs,” in Proc. ASME 2008 Int.Design Eng. Tech. Conf., no. DETC2008-49862, 2008.

36. Q. T. Aten, B. D. Jensen, and S. H. Burnett, “Testing of a pumpless MEMS microinjection needle em-ploying electrostatic attraction and repulsion of DNA,” in Proc. ASME 2008 Int. Design Eng. Tech. Conf.,no. DETC2008-49548, 2008.

37. K. B. Teichert and B. D. Jensen, “Calibration approach for thermomechanical in-plane microactuatorself-sensing,” in Proc. ASME 2008 Int. Design Eng. Tech. Conf., no. DETC2008-49546, 2008.

38. M. S. Diehl and B. D. Jensen, “Wet Etched Pyramidal Microneedles with Fluid-Delivery Microchannels,”in ASME Int. Mech. Eng. Congress and Exp., no. IMECE2007-43524, 2007.

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39. P. A. Halverson, L. L. Howell, B. D. Jensen, and S. P. Magleby, “Concepts for achieving multi-stabilityin compliant rolling-contact elements,” in Proc. ASME 2007 Int. Des. Eng. Tech. Conf., no. DETC2007-34836, 2007.

40. T. M. Pendleton and B. D. Jensen, “Compliant Mechanisms Formed from Shaped Wire,” in Proc. ASME2007 Int. Des. Eng. Tech. Conf., no. DETC2007-34969, 2007.

41. S. D. Landon, S. P. Magleby, and B. D. Jensen, “A Compliant Rotating Joint for Deployable Wings onSmall UAVS,” in Proc. ASME 2007 Int. Des. Eng. Tech. Conf., no. DETC2007-35821, 2007.

42. T. Waterfall, K. Teichert, and B. Jensen, “Simultaneous On-Chip Sensing and Actuation Using the Ther-momechanical In-Plane Microactuator,” Proc. ASME 2007 Int. Des. Eng. Tech. Conf., no. DETC2007-34982, 2007.

43. T. Pendleton and B. Jensen, “Development of a Tristable Compliant Mechanism,” in 12th IFToMM WorldCongress, Besançon, France, Paper 835, June 2007.

44. M. Shalaby, Z. Wang, L. L.-W. Chow, B. D. Jensen, J. L. Volakis, K. Kurabayashi, and K. Saitou, “Robustdesign of RF-MEMS cantilever switches using contact physics modeling,” in Proc. IMECE 2006, no.IMECE2006-15339, 2006.

45. A. Frischknecht and B. D. Jensen, “Influence of heat, force, and secondary factors on electrical contactresistance in microscale gold contacts,” in Proc. STLE/ASME Int. Joint Tribology Conf., no. IJTC2006-12293, 2006.

46. G. Gee and B. D. Jensen, “A dynamic model of microscale contact breaking in RF MEMS switches,” inProc. STLE/ASME Int. Joint Tribology Conf., no. IJTC2006-12297, 2006.

47. B. D. Jensen, K. Saitou, J. Volakis, and K. Kurabayashi, “Impact of skin effect on thermal behavior ofRF MEMS switches,” in Proc. 6th ASME/JSME Thermal Engineering Joint Conference, Paper No. TED-AJ03-420, March 2003.

48. M. Parkinson, B. D. Jensen, and K. Kurabayashi, “Design of compliant force and displacement ampli-fication micro-mechanisms,” in Proc. ASME 2001 Design Engineering Technical Conferences, paperDETC2001/DAC-21089, 2001.

49. B. D. Jensen and L. L. Howell, “Identification of compliant pseudo-rigid-body mechanism configurationsresulting in bistable behavior,” in Proc. ASME 2000 Design Engineering Technical Conferences, paperDETC2000/MECH-14147, 2000.

50. M. Parkinson, B. D. Jensen, and G. M. Roach, “Optimization-based design of a fully-compliant bistablemicromechanism,” in Proc. ASME 2000 Design Engineering Technical Conferences, paper DETC2000/-MECH-14119, 2000.

51. B. T. Edwards, B. D. Jensen, and L. L. Howell, “A pseudo-rigid-body model for functionally-binarypinned-pinned segments used in compliant mechanisms,” in Proc. 1999 ASME Design Engineering Tech-nical Conferences, paper DETC99/DAC-8644, 1999.

52. P. G. Opdahl, B. D. Jensen, and L. L. Howell, “An investigation into compliant bistable mechanisms,” inProc. 1998 ASME Design Engineering Technical Conferences, Atlanta, GA, paper DETC98/MECH-5914,1998.

53. B. D. Jensen, L. L. Howell, and L. G. Salmon, “Introduction of two-link, in-plane bistable compliantMEMS,” in Proc. 1998 ASME Design Engineering Technical Conferences, paper DETC98/MECH-5837,1998.

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54. B. D. Jensen, L. L. Howell, D. B. Gunyan, and L. G. Salmon, “The design and analysis of compliantMEMS using the pseudo-rigid-body model,” in Microelectromechanical Systems (MEMS) 1997. Dallas,TX: 1997 ASME International Mechanical Engineering Congress and Exposition, pp. 119–126, Nov.1997.

Manuscripts in Abstract-Reviewed Conference Proceedings

1. B. D. Jensen, J. Tanner, B. Edmondson, C. Grames, S. P. Magleby, and L. L. Howell, “Design and Fab-rication of Millimeter-scale Crossed-cylinder Wrist Mechanism with Two Degrees of Freedom,” in Pro-ceedings of the 2014 Micro Actuators and Micro Mechanisms Conference, Timisoara, Romania, Oct. 2–4,2014.

2. W. V. Wilding, J. K. Archibald, P. W. Williams, S. L. Shumway, and B. D. Jensen, “Fostering excellencein teaching and learning in a college of engineering,” in ASEE Annual Conference, San Antonio, TX, June2012.

3. N. C. Toone, W. C. Fazio, J. M. Lund, G. H. Teichert, B. D. Jensen, S. H. Burnett, and L. L. Howell,“Investigation of Unique Carbon Nanotube Cell Restraint Compliant Mechanisms,” in Proceedings ofInternational Conference on Microactuators and Micromechanisms (MAMM-2012), 2012.

4. D. McKenna, B. D. Jensen, R. R. Vanfleet, R. C. Davis, and D. D. Allred, “Carbon Nanotube TemplatedMicrofabrication of High-Aspect-Ratio Metal Structures,” in Proceedings of Manufacturing Technologies2011 Conference, Aug. 2011.

5. D. N. Hutchison, Q. Aten, B. Turner, N. Morrill, L. L. Howell, B. D. Jensen, R. C. Davis, and R. R.Vanfleet, “High aspect ratio microelectromechanical systems: a versatile approach using carbon nanotubesas a framework,” in Proc. Solid-State Sensors, Actuators, and Microsystems Conference (Transducers), pp.1604–1607, 2009.

6. B. Todd, M. Philips, S. M. Schultz, A. R. Hawkins, and B. D. Jensen, “RFID Threshold Accelerometer,”in IEEE AUTOTESTCON 2008, pp. 55–59, 2008.

7. K. Teichert, T. Waterfall, B. Jensen, L. Howell, and T. McLain, “Piezoresistive in-line integrated force sen-sors for on-chip measurement and control,” in Proc. of SPIE, Sensors and Smart Structures Technologiesfor Civil, Mechanical, and Aerospace Systems, vol. 6529, paper no. 6529-78, 2007.

8. G. K. Johns, T. L. Waterfall, L. L. Howell, B. D. Jensen, and T. W. McLain, “Exploring the ResistanceChange Trends Associated with Integrated Piezoresistive Sensing Elements,” in Proc. of SPIE, Sensorsand Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, vol. 6529, paper no.6529-106, 2007.

9. L. W. Chow, Z. Wang, B. D. Jensen, K. Saitou, J. L. Volakis, and K. Kurabayashi, “Skin effect aggregatedheating in RF MEMS suspended structures,” in 2005 IEEE MTT-S International Microwave SymposiumDigest, pp. 2143–2146, 2005.

10. B. D. Jensen, L. L.-W. Chow, J. L. Volakis, and K. Kurabayashi, “Adhesion effects on contact openingtime in MEMS switches,” in Proc. ASME/STLE Int. Joint Tribology Conf., paper TRIB2004-64350, 2004.

11. Z. Wang, B. Jensen, L. Chow, J. Volakis, K. Saitou, and K. Kurabayashi, “Effects of dimple geometry onRF MEMS switch heating,” in ANTEM 2004/URSI Conf., July 2004.

12. B. D. Jensen, K. Huang, L. W. Chow, K. Saitou, J. L. Volakis, and K. Kurabayashi, “Asperity heating forrepair of metal contact RF MEMS switches,” in 2004 IEEE MTT-S International Microwave SymposiumDigest, pp. 1939–1942, 2004.

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13. Z. Wang, B. Jensen, J. Volakis, K. Saitou, and K. Kurabayashi, “A preconditioner for hybrid matricesarising in RF MEMS switch analysis,” in 2004 IEEE Antennas and Propagation Society Int. Symp., vol. 3,June 2004.

14. B. D. Jensen, L. W. Chow, R. F. Webbink, K. Saitou, J. L. Volakis, and K. Kurabayashi, “Force dependenceof RF MEMS switch contact heating,” in Proc. 2004 17th IEEE Int. Conf. Micro Electro Mech. Systems,2004, pp. 137–140.

15. B. D. Jensen, Z. Wang, K. Saitou, J. L. Volakis, and K. Kurabayashi, “Simultaneous electrical and thermalmodeling of a contact-type RF MEMS switch,” in Microelectromechanical Systems. 2003 ASME Int.Mechanical Engineering Congress and Exposition, 2003, paper IMECE2003-41422.

16. B. D. Jensen, Z. Wang, L. Chow, K. Saitou, K. Kurabayashi, and J. L. Volakis, “Integrated electrothermalmodeling of RF MEMS switches for improved power handling capability,” in IEEE Topical Conf. WirelessCommunication Tech., Oct. 2003, pp. 10–11.

17. Z. Wang, B. D. Jensen, J. L. Volakis, K. Saitou, and K. Kurabayashi, “Analysis of RF-MEMS switchesusing finite element-boundary integration with moment method,” in 2003 IEEE Antennas and PropagationSociety International Symposium, vol. 2, 2003, pp. 173–176.

18. B. D. Jensen, M. B. Parkinson, K. Kurabayashi, L. L. Howell, and M. S. Baker, “Design optimization of afully-compliant bistable micro-mechanism,” in Microelectromechanical Systems (MEMS). 2001 ASMEInt. Mechanical Engineering Congress and Exposition, 2001, paper IMECE2001/MEMS-23852.

19. B. D. Jensen, S. Mutlu, S. Miller, K. Kurabayashi, and J. J. Allen, “Design and simulation of shaped combfingers for compensation of mechanical restoring force in tunable resonators,” in MicroelectromechanicalSystems (MEMS). 2001 ASME Int. Mechanical Engineering Congress and Exposition, 2001, paperIMECE2001/MEMS-23826.

20. M. S. Rodgers, S. Kota, J. Hetrick, Z. Li, B. D. Jensen, T. W. Krygowski, S. Miller, S. M. Barnes, and M. S.Burg, “A new class of high-force, low-voltage compliant actuation systems,” in Hilton Head Workshop2000, 2000.

21. M. S. Rodgers, J. J. Allen, B. D. Jensen, S. L. Miller, and K. S. Meeks, “Microelectromechanical high-density energy storage/rapid release system,” in Proc. 1999 Micromachined Devices and Components V.Santa Clara, CA: SPIE Vol. 3876, Sept. 1999, pp. 212–222.

22. M. P. de Boer, B. D. Jensen, and F. Bitsie, “A small area in-situ MEMS test structure to measure fracturestrength by electrostatic probing,” in Proc. 1999 Materials Device Characterization in MicromachiningII. Santa Clara, CA: SPIE Vol. 3875, Sept. 1999, pp. 97–103.

23. B. D. Jensen, F. Bitsie, and M. P. de Boer, “Interferometric measurement for improved understanding ofboundary effects in micromachined beams,” in Proc. 1999 Materials Device Characterization in Micro-machining II. Santa Clara, CA: SPIE Vol. 3875, Sept. 1999, pp. 61–72.

24. B. D. Jensen, M. P. de Boer, and S. L. Miller, “IMaP: Interferometry for material properties in MEMS,”in Tech. Proc. Second Int. Conf. Modeling and Simulation of Microsystems, San Juan, Puerto Rico, April1999, pp. 206–209.

Manuscripts in Magazines or Trade Journals

1. Sandra H. Burnett and Brian D. Jensen, “Nanotechnology for genetic engineering in agriculture,” ISBNews Report Agricultural and Environmental Biotechnology, pp. 5–8, June 2013.

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2. B. Todd, M. Phillips, S. Schultz, A. Hawkins, and B. Jensen, “RFID Threshold Accelerometer,” IEEEInstrumentation & Measurement Magazine, vol. 12, no. 4, pp. 14–18, Aug. 2009.

Abstracts Published

1. N. Tolou, P. J. Pluimers, B. D. Jensen, S. Magleby, L. L. Howell, and J. L. Herder, “Carbon-Nanotube-Based Constant Force Mechanisms,” in Mikroniek, 52(4) 58, 2012.

2. N. Tolou, P. J. Pluimers, B. D. Jensen, S. P. Magleby, L. L. Howell, and J. L. Herder, “Constant ForceMicro Mechanism out of Carbon Nanotube Forest,” in Proceedings of the 12th EUSPEN InternationalConference, Stockholm, Sweden, June 2012.

3. A. M. Wilson, Q. T. Aten, B. D. Jensen, S. Tamowski, L. L. Howell, and S. H. Burnett, “Next GenerationPronuclear Injection: MEMS Replaces the Pump,” Transgenic Research, vol. 20, no. 5, pp. 1159-1160,2011.

4. S. H. Burnett, Q. Aten, R. David, L. Howell and B. Jensen, “Zygote restraint and DNA delivery without aholding pipette or a microinjection pump,” Transgenic Research, vol. 19, no. 2, p. 325, 2010.

5. Q. T. Aten, S. H. Burnett, L. L. Howell, and B. D. Jensen, “A Pumpless, Micron-scale, Self-contained,Microinjector with High Success Rates,” in 37th Autumn Immunology Conference, Chicago, IL, November21-24, 2008.

6. Q. T. Aten, S. H. Burnett, B. D. Jensen, and L. L. Howell, “A Pumpless, Micron-scale, Self-contained,Microinjector with High Success Rates,” in nanoUtah 2008, Salt Lake City, UT, October 16-17, 2008.

Invited Lectures

1. B. D. Jensen, “Contact Resistance and Adhesion in MEMS Contacts” and “Patterned Channels for Re-duced Friction in Microneedles,” Hewlett-Packard Company, R&D Lab, Corvallis, Oregon, Jan. 11, 2007.

2. B. D. Jensen, “Experimental Investigation of MEMS Switch Contact Behavior: Resistance and Adhesion,”Qualcomm MEMS Research and Innovation Center, San Jose, California, Feb. 22, 2007.

Presentations

1. N. Gregory, N. Warner, B. Hanks, B. D. Jensen, and S. Hope, “Measurement of Nanoinjection DeliveryThrough Radiotagged DNA and Enucleation,” ASME International Design Engineering Technical Con-ferences, Cleveland, OH, August 2017.

2. L. A. Gale, J. W. Sessions, C. S. Skousen, B. T. Garcia, K. D. Price, B. W Hanks, J. K. Alder, S. H.Burnett, and B. D. Jensen, “A High Throughput MEMS-based Lance Array Nanoinjection System Gen-erates CRISPR-Cas9 Genetically Altered Mammalian Cells,” ASME International Design EngineeringTechnical Conferences, Charlotte, NC, August 2016.

3. S. Hope, J. Sessions, C. Skousen, B. Garcia, K. Price, B. Hanks, J. K. Alder, and B. D. Jensen “Micro-fabricated Lance Array Nanoinjection system delivers CRISPR-Cas9 to hundreds of thousands of cellssimultaneously,” Keynote Presentation at International Transgenic Technologies Society 13th Conference,Prague, Czech Republic, March 2016.

4. J. M. Lund, D. B. Syme, R. R. Vanfleet, R. C. Davis, B. D. Jensen, and B. D. Iverson, “Carbon nanotube-templated, porous films for thermal isolation,” AVS 62nd International Symposium and Exhibition, SanJose, CA, Oct. 2015.

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5. S. Morco, A. Bowden, B. Jensen, and D. Williams, “Structural Antibacterial Properties of Carbon-Infiltrated Carbon Nanotube Coatings,” ASME International Design Engineering Technical Conferences,Boston, MA, August 2015.

6. N. Gregory, B. Hanks, N. Warner, S. H. Burnett, and B. D. Jensen, “DNA Delivery to a HeLa Cell CultureUsing Multi-cell Nanoinjection System,” ASME Global Congress on NanoEngineering for Medicine andBiology, Minneapolis, MN, April 2015.

7. J. Sessions, B. Hanks, S. H. Burnett, and B. D. Jensen, “Low Temperature Effects on Propidium IodideUptake in Nanoinjected HeLa Cells,” ASME Global Congress on NanoEngineering for Medicine andBiology, Minneapolis, MN, April 2015.

8. J. Sessions, C. Skousen, K. Price, B. D. Jensen, and S. H. Burnett, “CRISPR/cas9 Directed Gene Knock-out of Constitutively Expressed GFP in HeLa Cells using Lance Array Nanoinjection,” ASME GlobalCongress on NanoEngineering for Medicine and Biology, Minneapolis, MN, April 2015.

9. J. Lund, J. Pierce, and B. Jensen, “Fabrication and Testing of Self-assembled Carbon Nanotube Lances forDNA Injection,” ASME Global Congress on NanoEngineering for Medicine and Biology, San Francisco,CA, Feb. 2014.

10. B. W. Hanks, S. J. Brewer, S. H. Burnett, and B. Jensen, “The Effects of Lance Geometry in Nanoinjectionof HeLa Cells,” ASME Global Congress on NanoEngineering for Medicine and Biology, San Francisco,CA, Feb. 2014.

11. S. Noyce, R. C. Davis, R. R. Vanfleet, D. D. Allred, and B. D. Jensen, “Fabrication and Characterizationof Porous Carbon Nanotube Composite Resonators,” AVS 60th International Symposium and Exhibition,Long Beach, CA., Oct. 2013.

12. R. R. Vanfleet, W. Fazio, J. M. Lund, K. Zufelt, T. Wood, D. D. Allred, R. C. Davis, and B. D. Jensen,“Infiltration of Carbon into Carbon Nanotube Forests for Templated Microfabrication,” AVS 60th Inter-national Symposium and Exhibition, Long Beach, CA., Oct. 2013.

13. J. M. Lund, B. D. Jensen, R. C. Davis, and R. R. Vanfleet, “Silica Structures by Plasma-enhanced ChemicalVapor Infiltration of a Carbon Nanotube Template,” AVS 60th International Symposium and Exhibition,Long Beach, CA., Oct. 2013.

14. Z. K. Lindstrom, S. J. Brewer, M. A. Easter, B. D. Jensen, and S. H. Burnett, “Simultaneous multi-cellinjections of propidium iodide into HeLa cells using a nanoinjection lance array,” ASME Global Congresson NanoEngineering for Medicine and Biology, Feb. 4–6, Boston, MA, 2013.

15. B. D. Jensen, “Micro- and meso-scale fabrication of compliant mechanisms via carbon nanotube tem-plates,” JPL Workshop on Compliant Mechanisms for Space Applications, April 3–May 1, Pasadena, CA,2012.

16. B. D. Jensen, “Electro-assisted transport of DNA or other molecules across cell membranes,” NSF Work-shop on Micro, Nano, Bio Systems, March 30–31, Arlington, VA, 2012.

17. B. D. Jensen, “Meso-scale fabrication of compliant mechanisms via carbon nanotube templates,” AFRL/AFOSRWorkshop on Compliant Mechanisms in Micro Air Vehicle Design, March 26–27, Dayton, OH, 2012.

18. B. D. Jensen and S. Vengallatore, “Structural Design of Micromachines and Microelectromechanical Sys-tems (MEMS),” Workshop at ASME 2010 International Design Engineering Technical Conferences, Mon-treal, Quebec, Canada, Aug. 15, 2010.

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19. S. Burnett, Q. Aten, R. David, L. Howell, and B. Jensen, “Zygote restraint and DNA delivery withouta holding pipette or a microinjection pump,” in Ninth Transgenic Technology Meeting, Berlin, Germany,March 2010.

Patents

Patents Granted

“Super-hydrophobic materials and associated devices, systems, and methods,” Esplin, C. D., Jensen, B. D.,and Bowden, A. 3., U.S. Patent 10,517,995, issued Dec. 31, 2019.

“Crossed-cylinder Wrist Mechanism with Two Degrees of Freedom,” Jensen, B. D., Howell, L. L., Magleby,S. P., Edmondson, B., Tanner, J., Grames, C., and Lund, J., U.S. Patent 10,390,898, issued Aug. 27, 2019,assignment transferred to Intuitive Surgical, Inc.

“Methods and Devices for Charged Molecule Manipulation,” Aten, Q T., Burnett, S. H., Jensen, B. D., andHowell, L. L., U.S. Patent 10,119,151, issued Nov. 6, 2018.

“Vascular Stents and Related Methods,” Skousen, D. L., Jensen, B. D., and Bowden, A. E., U.S. Patent9,271,853, issued Mar. 1, 2016.

“Compliant Bistable Micromechanism,” Howell, L. L., Parkinson, M. B., Jensen, B. D. and Roach, G. M.,U.S. Patent 7,075,209, issued July 11, 2006.

“High-Performance Fully-Compliant Micro-Mechanisms for Force/Displacement Amplification,” Jensen, B. D.,Farina, M., and Kurabayashi, K., U.S. Patent 6,748,818, issued June 15, 2004.

“Method and System for Automated On-Chip Material and Structural Certification of MEMS Devices,”Sinclair, M. B., de Boer, M. P., Smith, N. F., Jensen, B. D., and Miller, S. L., U.S. Patent 6,567,715, issuedMay 20, 2003.

“Electrostatic Apparatus for Measurement of Microfracture Strength,” de Boer, M. P., Bitsie, F., and Jensen, B. D.,U.S. Patent 6,424,165, issued July 23, 2002.

“Microelectromechanical Ratcheting Apparatus,” Barnes, S. M., Miller, S. L., Jensen, B. D.,Rodgers, M. S., and Burg, M. S., U.S. Patent 6,313,562, issued November 6, 2001.

“Bistable Compliant Mechanism,” Jensen, B. D., Howell, L. L., and Roach, G. M., U.S. Patent 6,215,081,issued April 20, 2001.

“Compact Electrostatic Comb Actuator,” Rodgers, M. S., Burg, M. S., Jensen, B. D., Miller, S. L., andBarnes, S. M., U.S. Patent 6,133,670, issued Oct. 17, 2000.

Patents Pending

“Microorganism-resistant Materials and Associated Devices, Systems, and Methods,” Bowden, A., Jensen,B., and Morco, S., U.S. Patent Pending.

“Rolling Joint Jaw Mechanism,” Howell, L.L., Magleby, S.P., Jensen, B.D., Steger, J.R., Tanner, J., andGrames, C., U.S. Patent Pending.

“Porous Material for Thermal and/or Electrical Isolation and Methods of Manufacture,” Davis, R.C., Van-fleet, R.R., Lund, J., and Jensen, B.D., U.S. Patent Pending.

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External Research Grants and Contracts

Current Grants

Tula Health, $85,688, 5/2019 to 12/2021, “Research into Constant-Force Wristband,” B. D. Jensen (PI).

Tula Health, $262,141, 2/2019 to 12/2021, “A Carbon Electrode Array for Bioimpedance Spectroscopy,” R.Davis (PI) and B. Jensen (Co-PI).

Argyle Scientific, $10,000, 10/2020 to 4/2021, “Carbon Nanotube Coatings on Implants for Enhanced Bac-terial Resistance,” B.D. Jensen (PI) and A.E. Bowden (Co-PI).

Completed Grants

TAG Heuer, $74,000, 12/2016 to 4/2018, “Fabrication of Carbon Nanotube Composite Mechanisms”, B.Jensen (PI).

Intuitive Surgical, $60,000, 7/2016 to 8/2017, “Innovative Bellows Designs to Mitigate Flexible Shaft Buck-ling,” S. Magleby (PI), B. Jensen (Co-PI), and L. Howell (Co-PI).

TAG Heuer, $30,000, 10/2015 to 8/2016, “Fabrication of Carbon Nanotube Composite Mechanisms,” B. D.Jensen (PI).

National Science Foundation, $416,000, 5/2011 to 4/2016, “CAREER: Microsystem Arrays for Electro-assisted Transport of DNA, Proteins, and Synthetic Molecules Across Cell Membranes,” B. D. Jensen (PI).

Intuitive Surgical, $60,000, 10/2104 to 12/2015, “Design Guidelines and Concept Refinement for SmallInstruments,” B. Jensen (PI), S. Magleby (Co-PI), and L. Howell (Co-PI).

Flexous BV, $17,700, 10/2014 to 8/2015, “Fabrication of Carbon Nanotube Composite Mechanisms forMaterial Property Testing,” B. Jensen (PI).

Intuitive Surgical, $60,000, 7/2103 to 9/2014, “Flexure-based Small Instrument Mechanism Research,” B.Jensen (PI), S. Magleby (Co-PI), and L. Howell (Co-PI).

Clarke Captital, $37,500, 5/2012 to 5/2013, “Compliant Ceramic Stents,” A. E. Bowden (PI) and B. D.Jensen (Co-PI).

NanoInjection Technologies, LLC, $49,950, 8/2011 to 2/2012, “Cytoplasm-to-pronucleus and YAC Nanoin-jection,” B. D. Jensen (PI), S. H. Burnett (Co-PI), and L. L. Howell (Co-PI).

NanoInjection Technologies, LLC, $132,668, 2/2011 to 8/2011, “Nanoinjection and Cell Restraint Tech-nologies,” B. D. Jensen (PI), S. H. Burnett (Co-PI), and L. L. Howell (Co-PI).

NanoInjection Technologies, LLC, $127,386, 8/2010 to 2/2011, “Advancement of Nanoinjection Technol-ogy,” B. D. Jensen (PI), S. H. Burnett (Co-PI), and L. L. Howell (Co-PI).

NanoInjection Technologies LLC, $116,214, 2/2010 to 8/2010, “Development of Nanoinjection Prototypesand Protocols, Phase II,” B. D. Jensen (PI), L. L. Howell (Co-PI), and S. B. Burnett (Co-PI).

NanoInjection Technologies LLC, $97,500, 7/2009 to 1/2010, “Development of Nanoinjection Prototypesand Protocols,” B. D. Jensen (PI), L. L. Howell (Co-PI), and S. B. Burnett (Co-PI).

Defense Advanced Research Projects Agency (DARPA), $50,000, 7/2007 to 9/2008, subcontract throughBlock MEMS,“Subcontract to NanoSwitch Project,” B. D. Jensen (PI) and L. L. Howell (Co-PI).

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Army Research Office (ARO), $40,000, 7/2007 to 9/2008, subcontract through Block MEMS, “Subcontractto ChemPen Contract,” L. L. Howell (PI) and B. D. Jensen (Co-PI).

National Science Foundation (NSF), $300,000, 8/2007 to 7/2008, “MRI: Acquisition of chlorine basedreactive ion etcher,” A. Hawkins (PI), B. Jensen (Co-PI), S. Schultz (Co-PI), A. Woolley (Co-PI), and G.Nordin (Co-PI).

Nokia Research Center, $125,000, 5/05 to 12/05, “Development of Compliant Mechanism Technologiesand Concepts for Communication Devices,” L. L. Howell (PI), S. P. Magleby (Co-PI), B. D. Jensen (Co-PI).

Direction of Capstone Projects

In my capacity as a Capstone coach in the BYU Mechanical Engineering Department, I also directed thefollowing externally-funded projects:

BD Medical, Salt Lake City, Utah, “Magnetic IV Catheter Locating Technology,” Capstone Project, 9/2016to 4/2017.

eMobility, Singapore, “The Last Mile Problem: Transportation to and from Public Transportation Hubs,”Capstone Project, 9/2011 to 4/2012.

GE Healthcare, Salt Lake City, Utah, “Low Force Steering Concept for 9900 Mobile X-ray System,” Cap-stone Project, 9/2010 to 4/2011.

EyeTech Digital Systems, Mesa, Arizona, “Programmable Focus Mechanism,” Capstone Project, 9/2009 to4/2010.

Aesculap Inc., Tuttlingen, Germany, “Multi-Instrument for Intracranial Diagnostic Ventriculoscopy & ShuntPlacement,” Capstone project, 9/2007 to 4/2008.

Fletcher Enterprises, Springville, Utah, “Wireless Connectivity for the Palatometer,” Capstone project, 9/2006to 4/2007.

Fletcher Enterprises, Springville, Utah, “Development of a Bio-Feedback Tool for Control of Nasality inSpeech,” 9/2005 to 4/2006.

Professional Activities

Professional Committee Memberships and Leadership

Chair, IFToMM Technical Committee on Micromachines, Oct. 2013 – Dec. 2017.

Chair, ASME Committee on Micro- and Nano-Systems, Oct. 2013–Oct. 2014.

Treasurer, ASME Committee on Micro- and Nano-Systems, Oct. 2012–Oct. 2013.

Secretary, ASME Committee on Micro- and Nano-Systems, Oct. 2011–Oct. 2012.

Deputy Chair, IFToMM Technical Committee on Micromachines, Feb. 2011 – Oct. 2013.

Member, IFToMM Technical Committee on Micromachines, Nov. 2009 – present.

Member, ASME Committee on Micro- and Nano-Systems, Dec. 2008 – present.

Member, ASME Design Engineering Division Student Affairs Subcommittee, Jan. 2008 – Oct. 2012.

Member, ASME Committee on Nanotribology and Micro/Nano-Systems, Oct. 2006 – Jan. 2008.

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Conference Organization

Conference Co-Chair, 4th Conference on Microactuators and Micromechanisms (MAMM-2016), Oct. 5-7,2016, held in Ilmenau, Germany.

Conference Co-Chair, 8th Frontiers in Biomedical Device Conference, at the 2015 ASME InternationalDesign Engineering Technical Conferences and Computers and Information in Engineering Conference heldin Boston, MA.

Conference Chair, 6th International Conference on Micro- and Nanosystems, at the 2012 ASME InternationalDesign Engineering Technical Conferences and Computers and Information in Engineering Conference heldin Chicago, IL.

Technical Program Chair, 5th International Conference on Micro- and Nanosystems, at the 2011 ASMEInternational Design Engineering Technical Conferences and Computers and Information in EngineeringConference held in Washington, D.C.

Symposium Co-organizer, Symposium on Bio-MEMS and Bio-NEMS, 4th International Conference onMicro- and Nanosystems, at the 2010 ASME International Design Engineering Technical Conferences andComputers in Engineering Conference held in Montreal, Canada.

Symposium Organizer, Symposium on Bio-MEMS and Bio-NEMS, 3rd International Conference on Micro-and Nanosystems, at the 2009 ASME International Design Engineering Technical Conferences and Comput-ers in Engineering Conference held in San Diego, CA.

Symposium Organizer, Symposium on Bio-MEMS and Bio-NEMS, 2nd International Conference on Micro-and Nanosystems, at the 2008 ASME International Design Engineering Technical Conferences and Comput-ers in Engineering Conference held in New York City, NY.

Review Co-Coordinator, Micro and Nano Scale Sensors and Actuators Track, 2nd International Conferenceon Micro- and Nanosystems, at the 2008 ASME International Design Engineering Technical Conferencesand Computers in Engineering Conference held in New York City, NY.

Organizing Committee, Symposium on Micromechanisms and Micro/Nano Manipulation, 1st InternationalConference on Micro- and Nanosystems, at the 2007 ASME International Design Engineering TechnicalConferences and Computers in Engineering Conference held in Las Vegas, NV.

Organizing Committee, Symposium on Interfacial Phenomena in MEMS, 2007 ASME/STLE InternationalJoint Tribology Conference, San Diego, CA.

Memberships

ASME International

Tau Beta Pi

Consulting Activities

“Hand Press Development,” Provo Craft, Feb. 2008.

Journal Paper Reviews

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Reviewer for Sensors, Journal of Vacuum Science and Technology B, Measurement Science and Technol-ogy, Journal of Intelligent Material Systems and Structures, Transactions on Biomedical Engineering, In-ternational Research Journal of Engineering , Science, Technology, and Innovation,Interational Journalof Nonlinear Sciences and Numerical Simulation, Review of Scientific Instruments, Mechanics Based De-sign of Structures and Machines, Microelectronic Engineering, Transactions on Mechatronics, Journal ofMicro/Nanolithography, MEMS, and MOEMS, Microelectronics Reliability, Journal of Dynamic Systems,Measurement, and Control, Smart Materials and Structures, ASME Journal of Computing and Informa-tion Science in Engineering, IEEE Sensors Journal, Journal of Applied Physics, ASME Journal of AppliedMechanics, Microfluidics and Nanofluidics, Precision Engineering, IEEE Transactions on Industrial Elec-tronics, Journal of Physics D: Applied Physics, Research in Engineering Design, Journal of Mechanismsand Robotics, Mechanism and Machine Theory, Journal of Mechanical Design, Sensors and Actuators A:Physical, and Journal of Micromechanics and Microengineering (29 journals in all).

Other Professional Service

Judge, Undergraduate Division, ASME Student Mechanisms Contest, ASME Mechanisms and RoboticsConference, 2017.

Judge, Sandia National Laboratories University Alliance MEMS Design Competition, 2012.





Reviewer, 2009 Norman Hackman Advanced Research Program. Over 80 proposals reviewed for this re-search program, operated by the state of Texas for Texas universities.


Judge, Graduate Division, ASME Student Mechanisms Contest, ASME Mechanisms and Robotics Confer-ence, 2008.

Judge, Graduate Division, ASME Student Mechanisms Contest, ASME Mechanisms and Robotics Confer-ence, 2007.

University Service

University Assignments

Presenter for Engineering Math Courses (Math 302 and 303), Nov. 2005 – Present. Presentations twice eachsemester on the use of mathematics in engineering research.

ORCA Grant Reviewer, Nov. 2006. Review of undergraduate student research proposals for the BYU ORCAGrant program.

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College Assignments

Member, Weidman Center Task Force, Aug. 2018 – Dec. 2018.

Member, Teaching and Learning Committee, Apr. 2010 – Apr. 2015.

Department Service

Member of Ph.D. Math Qualifying Exam Committee, Sept. 2015 – present.

Department Assessment Coordinator, Aug. 2014 – present.

Honors Coordinator for the Department, Feb. 2008 – Present.

Member of Department Advancement in Rank Committee, Sept. 2012 – Aug. 2014.

Member of Ph.D. Solid Mechanics Exam Committee, Sept. 2012 – Aug. 2015.

Chair of Department Search Committee, Aug. 2009 – Aug. 2012.

Member of Ph.D. Math Qualifying Exam Committee, Jan. 2009 – Aug. 2012.

Member of Department Search Committee, Aug. 2008 – Aug. 2009.

Member of Department Assessment Committee, Aug. 2007 – Aug. 2008.

Oversight of upgrade of the dynamics laboratory in 153 CB, a laboratory designed to teach dynamics, vibra-tions, and controls to undergraduate and graduate students, Nov. 2007 – Aug. 2008.

Member of Department Search Committee, Dec. 2006 – Aug. 2007.

Member of Department Undergraduate Committee, Aug. 2006 – Dec. 2006.

Presenter in Graduate Student Seminar, Nov. 2005.

Member of Ph.D. Dynamics Qualifying Exam Committee, Jan. 2005 – Jan. 2009.

Student Advisement

Current Graduate Students

Roger Black, M.S. Thesis in process, Brigham Young University.

Sterling Voss, M.S. Thesis in process, Brigham Young University.

Diego Leon, M.S. Thesis in process, Brigham Young University.

Thomas Naylor, M.S. Thesis in process, Brigham Young University.

Graduate Students Advised

1. Daniel Snow, “Modeling and Effects of Non-Homogeneous Infiltration on Material Properties of CarbonInfiltrated Carbon Nanotube Forests,” M.S. Thesis, Brigham Young University, Aug. 2020.

2. Taylor Brown, “In Vivo Silicon Lance Array Transfection of Plant Cells,” M.S. Thesis, Brigham YoungUniversity, April 2020.

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3. Jason Lund, “Advanced Techniques for Carbon Nanotube Templated Microfabrication,” Ph.D. Disserta-tion, Brigham Young University, Dec. 2019.

4. Shane Sypherd, “Effects of Infiltration Temperature, Time, and Gas Flow Rate on Material Properties ofCarbon Infiltrated Carbon Nanotubes,” M.S. Thesis, Brigham Young University, Dec. 2019.

5. Fred Fagergren, “Using Non-destructive Testing to Predict Bending Modulus of Carbon Infiltrated CarbonNanotubes,” M.S. Thesis, Brigham Young University, Dec. 2018.

6. Parker Schnepf, “Design, Modeling, and Thermal Characterization of Temperature Gradient Gas Chro-matography Micro-Columns,” M.S. Thesis, Brigham Young University, Aug. 2018.

7. Brandon Sargent, “Using Collapsible Systems to Mitigate Buckling in Thin Flexible Instruments in RoboticSurgery,” M.S. Thesis, Brigham Young University, June 2018.

8. Ryan Packer, “Carbon Nanotube Prosthetic Venous Valve,” M.S. Thesis, Brigham Young University, Dec.2017.

9. John Sessions, “In Vitro Molecular Modification of Human Cultured and Primary Cells Using LanceArray Nanoinjection,” Ph.D. Dissertation, Brigham Young University, April 2016.

10. Tyler E. Lewis, “Investigation of Parameters Affecting the Nanoinjection of HeLa 229 Cancer Cells,” M.S.Thesis, Brigham Young University, June 2015.

11. Warren B. Robison, “A Study of Carbon Infiltrated Carbon Nanotubes Fabricated on Convex CylindricalSubstrates for the Creation of a Coronary Stent,” M.S. Thesis, Brigham Young University, June 2015.

12. Jordan D. Tanner, “Design and Analysis of Robotically-Controlled Minimally Invasive Surgical Instru-ments,” M.S. Thesis, Brigham Young University, Dec. 2014.

13. Zachary Lindstrom, “Design and Experimental Testing of Nanoinjection Protocols for Delivering Moleculesinto HeLa Cells with a Bio-MEMS Device,” M.S. Thesis, Brigham Young University, June 2014.

14. Kristopher Jones, “An Exploration of Carbon-Filled Carbon Nanotubes as Potential Material in CoronaryStents,” M.S. Thesis, Brigham Young University, June 2013.

15. Gregory Teichert, “Design and Testing of a Biological Microelectromechanical System for the Injectionof Thousands of Cells Simultaneously,” M.S. Thesis, Brigham Young University, Dec. 2012.

16. Nathan Toone, “Mathematical Model and Experimental Exploration of the Nanoinjector Lance Array,”M.S. Thesis, Brigham Young University, Dec. 2012.

17. Walter Fazio, “Mechanical Properties and MEMS Applications of Carbon-infiltrated Carbon NanotubeForests,” M.S. Thesis, Brigham Young University, June 2012.

18. Gregory Holst, “Modeling, Design, and Testing of an Underwater Microactuation System Using a Stan-dard MEMS Foundry Process,” M.S. Thesis, Brigham Young University, June 2011.

19. Regis David, “Modeling and Testing of DNA Motion for Nanoinjection,” Ph.D. Dissertation, BrighamYoung University, April 2011.

20. Kellen Moulton, “Straightness of Growth for Carbon Nanotube Microelectromechanical Systems,” M.S.Thesis, Brigham Young University, December 2010.

21. Quentin Aten, “Design and Testing of a Pumpless Microelectromechanical System Nanoinjector,” M.S.Thesis, Brigham Young University, December 2008.

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22. Kendall Teichert, “Multi-Physics Modeling and Calibration for Self-Sensing of Thermomechanical In-Plane Microactuators,” M.S. Thesis, Brigham Young University, August 2008.

23. Benjamin Todd, “A Compliant Threshold Acceleration Sensor Integrated with Radio Frequency Identifi-able Tags,” M.S. Thesis, Brigham Young University, August 2008.

24. Michael Diehl, “Design and Fabrication of Out-Of-Plane Silicon Microneedles with Integrated Hydropho-bic Microchannels,” M.S. Thesis, Brigham Young University, December 2007.

25. Tyler Pendleton, “Design and Fabrication of Rotationally Tristable Compliant Mechanisms,” M.S. Thesis,Brigham Young University, December 2006.

26. Tyler Waterfall, “Design of Piezoresistive MEMS Force and Displacement Sensors,” M.S. Thesis, BrighamYoung University, December 2006.

Undergraduate Students Advised in Research

∗ indicates a coauthor on a conference paper. † indicates a coauthor on a journal paper. ‡ indicates a presenterat a conference

Devan Anderson, Sterling Anderson∗‡, Maxwell Bean∗, Isaac Becker, Kathryn Bingham, Roger Black, LucyBowden∗‡, Steven Brewer∗, Taylor Brown, Trevor Cowan, Andrew Cunningham∗†, Aaron Davis†‡, Hum-berto Detrinidad, Christian Esplin†, Melanie Ferguson∗‡, Mark Fernelius∗, Adam Frischknecht∗, KendalFrogget†, Lia Gale‡, Gavin Gee∗, Bailey Glass, Carly Gorman, Preston Greenhalgh, Nicholas Gregory∗‡,Brad Hanks∗†‡, Brandon Hanna†, Megan Heiner, Cameron Hernandez, Gregory Holst, Alyssa Huber, Ce-sare Jenkins∗, Shad Jensen, Peter Johnson, Talmage Jones∗‡, Art Krahenbuhl, Jaclyn Larsen, Nicole Laws,Jayden Lay, Dallin Lindstrom∗†, Jason Lund∗†, Alyssa Marsh, Paul McMullin, Bret Mecham∗, David Miller,Kellen Moulton, Joel Neff, Phillip Ng†, Seth Nielsen, Troy Nietschmann, John Pierce, Danni Porter∗, DanielPrawitt∗, Hailey Price, Kevin Price†, Craig Skousen†, Daniel Snow, Camille Stephens, Ian Syndergaard,Shane Sypherd, Jordan Tanner†, Greg Teichert∗†‡, Nathan Toone∗†‡, Nelson Warner, Shannon Zirbel∗†

Totals: 64 undergraduate students mentored, 29 published their work (14 in conference papers only, 8 injournal papers only, and 7 both), and 10 presented at a conference.

B.S. Honors Students Advised

John Pierce, “Increasing Genetic Modification Efficacy via Nanoinjection with Carbon Nanotube BasedLance Arrays,” B.S. Honors Thesis, Brigham Young University, June 2014.

Nathan Toone, “Determining Necessary Electrode Parameters for a Stand-Alone Nanoinjector Lance DuringAttraction,” B.S. Honors Thesis, Brigham Young University, April 2011.

Adam Frischknecht, “Effects of Contact Force on Electrical Contact Resistance in Micro-Machined Con-tacts,” B.S. Honors Thesis, Brigham Young University, March 2006.

Students Advised with an Undergraduate Research Scholarship

Students advised in completion of an undergraduate research scholarship received from the Office of Re-search and Creative Activities at BYU: Lia Gale, 2016, Bradley Hanks, 2015, Dallin Lindstrom, 2015, DevanAnderson, 2014, David Miller, 2008, Alyssa Huber, 2008, Art Krahenbuhl, 2007, Joel Neff, 2006.

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Advising of Student Awards

Advisor for three students (Greg Teichert, Greg Holst, and Walter Fazio), who won first place (Greg Teichertand Greg Host) and second place (Walter Fazio) at the ASME MNS Photo Contest, held in Washington, D.C.in August 2011.

Advisor for a student (Greg Teichert) who won second place in the Mechanisms - Graduate Division of theASME Mechanism and Robot Design Competition, held in Washington, D.C. in August 2011.

Advisor for two students who won first (Walter Fazio), second(Greg Holst), and third (Walter Fazio) placesat the ASME MNS Photo Contest, held in Montreal, Quebec, in Aug. 2010.

Advisor for two students (Ben Todd and Mallory Phillips) who won Second Place in the Best Student PaperContest at IEEE Autotestcon 2008 in Salt Lake City, Utah, for a paper titled, “RFID Threshold Accelerome-ter,” Sept. 2008.

Advisor for student (Quentin Aten) who won the Best Poster Award for “Out-of-Plane Cellular Manipulator:A MEMS Microinjector” at the 2nd annual nanoUtah Conference at the University of Utah in October 2007.

Advisor for student (Quentin Aten) who won second place for “Out-of-Plane Cellular Manipulator” in theUndergraduate Division of the 2007 ASME Mechanism Design Competition (a national competition) in LasVegas, NV, Sept. 2007.

Advisor for student (Troy Nietschmann) who won third place for “An Engine-Assisted, Pedal-Powered Bike”in the Undergraduate Division of the 2006 ASME Mechanism Design Competition (a national competition)in Philadelphia, PA, Sept. 2006.

Advisor for student (Adam Frischknecht) who won first place for “Electrical Contact Resistance Behavior inMicro Contacts” in the Old Guard Technical Poster Contest at the ASME 2006 Spring Student Contest heldat Colorado State University in March 2006.

Courses Taught

Me En 335, Dynamic System Modeling and Analysis

Me En 373, Introduction to Scientific Computing and Computer Aided Engineering

Me En 437, Kinematics

Me En 472, Mechanical Systems Design Applications

Me En 475/476, Integrated Product and Process Design (Capstone), Coach

Me En 475/476, Integrated Product and Process Design (Capstone), Instructor

Me En 479, International Product Development and Design, a Study Abroad course taught in Singapore.

Me En 501, Stress Analysis and Design of Mechanical Structures

Me En 550, MEMS, team-taught with Dr. Aaron Hawkins in Electrical Engineering

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Community Service

Sponsored an exhibit that taught fourth graders about science and engineering at a local elementary school,in April of 2007, 2009, 2010, 2011, 2012, 2013, 2014, 2016, 2017, 2018, and 2019, as well as Dec. 2012and 2017. Undergraduates in my kinematics class prepared hands-on demonstration materials and presentedthem to about 100 elementary school students.

Secretary of University of Michigan Family Housing Residents’ Council, a community forum representingthe interests of residents, May 2002–Aug. 2004.

President of Family Housing Residents’ Council, May 2000–May 2002.

Missionary, South Africa Johannesburg Mission, for the Church of Jesus Christ of Latter-day Saints, 1991–1993.

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BRIAN D. JENSEN Provo, UT 84602

Documents

Transcript of BRIAN D. JENSEN Provo, UT 84602