ISE 66 TAIPEI MEETING

66th Annual Meeting of the International Society of Electrochemistry

4 - 9 October 2015Taipei, Taiwan

http://annual66.ise-online.orge-mail: [email protected]

2nd Announcement and Call for Papers

Green Electrochemistry for Tomorrows Society

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We are delighted to welcome you to participate in the 66th Annual Meeting of the International Society of Electrochem-

istry in Taipei, Taiwan, 4-9 October 2015. The theme of the meeting is Green Electrochemistry for Tomorrows Society.

The meeting will be held in the Taipei International Convention Center (TICC), a world-class building for holding impor-

tant conferences. It shares a site with the International Trade Tower, the Taipei World Trade Center and the Grand Hyatt

Taipei. Being part of the business centers, TICC has held many important international meetings and conferences.

The meeting will illustrate the growing need for environmentally friendly processes and applications in our daily life. An

additional emphasis is placed on the growing relevance of fundamental molecular and nanoscale research, which has

enlarged the frontiers of electrochemistry. With this theme, we hope to encourage professional and academic participa-

tion by members of the global electrochemical community.

Invitation to ISE 2015

Symposium 1 New Directions in Analytical Electrochemistry

Symposium 2 Electrochemical Aspects of Biological Systems: Theory, Experiment and Applications

Symposium 3 Batteries for Tomorrows World

Symposium 4 Advances in Fuel Cells from Materials to Systems

Symposium 5 Novel Insights to Electrochemical Capacitors

Symposium 6 New Progress in Electrochemical Solar Cells

Symposium 7 Electrodeposition - The Frontier Approach in Material Science and Nanofabrication

Symposium 8 Corrosion and Passivity

Symposium 9 Electrocatalytic Materials

Symposium 10 Electrochemical Technology: New Challenges for a More Competitive Economy

Symposium 11 New Important Frontiers in Molecular Electrochemistry

Symposium 12 Physical Electrochemistry: Spectroscopic, Structural, and Theoretical Investigations of the Electrifi ed Interface

Symposium 13 Molecular Systems for Energy Conversion

Symposium 14 Modeling, Design and Characterization of Nanostructured, Electroactive and Multifunctional Materials

Symposium 15 Electrochemical Engineering from a Quantum Description to the Plant Modeling: Experiments and Design across Length Scales

Symposium 16 Supramolecular Electrochemistry for Analysis, Medicine and Biological Sciences

Symposium 17 Novel in Situ in Operando Methods

Symposium 18 General Session

Summary of Symposia

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Christian Amatore, FranceSusana Cordoba de Torresi, BrazilBing Joe Hwang, Taiwan (Chair)Manuela Rueda, SpainWei-Nien Su, Taiwan (Secretary General) Zhongqun-Tian, ChinaBernard Tribollet, FranceWen-Ta Tsai, TaiwanChi-Chao Wan, TaiwanNae-Lih Wu, Taiwan

Organizing Committee

Electrochimica Acta Gold Medal Alan Bond, Monash University, Australia

Bioelectrochemistry Prize of ISE Division 2 James Rusling, University of Connecticut, USA

Brian Conway Prize for Physical Electrochemistry Masatoshi Osawa, Hokkaido University, Sapporo, Japan

Jaroslav Heyrovsky Prize for Molecular Electrochemistry Flavio Maran, Padova University, Italy

Tajima Prize Yu-Guo Guo, Chinese Academy of Sciences, Beijing, China

Hans-Jrgen Engell Prize Fabio La Mantia, Ruhr Universitt Bochum, Germany

ISE Prize for Environmental Electrochemistry Sergi Garcia-Segura, Barcelona University, Spain

ISE Prize for Applied Electrochemistry Yonggang Wang, Key Laboratory of Molecular Catalysis, Shanghai, China

Early Career Analytical Electrochemistry Prize of ISE Division 1 Jan Vacek, Palacky University, Olomouc, Czech Republic

Oronzio and Niccol De Nora Foundation Young Author Prize Bai Peng, Massachusetts Institute of Technology, Cambridge, USA

2014 ISE Prize Winners and Award Lecturers

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Plenary Lecturers

Li-Jun WANChinese Academy of Sciences, China

Tomokazu MatsueTohoku University, Japan

Dr. Tomokazu Matsue is cur-rently Professor and Principal In-vestigator (PI) at WPI-Advanced Institute for Materials Research (WPI-AIMR), Tohoku University. He also serves as the President of the Electrochemical Society of Japan (ECSJ) and the editor of Electrochimica Acta. He re-ceived his Ph. D from Tohoku University in 1981 under Prof. Tetsuo Osa. After working as a postdoctoral fellow at University

of Wisconsin, an assistant professor, an associate professor, and full professor at the Graduate School of Engineering, To-hoku University, he moved to the Graduate School of Environ-mental Studies, Tohoku University, for its foundation in 2003. In 2010, he joined WPI-AIMR. Now he is the Professor and PI at WPI-AIMR, leading more than 30 researchers including professors, postdoctoral fellows, technical staffs, and students in his research laboratory. His research interests are in micro/nano-biosensing devices and systems, high-resolution elec-trochemical imaging of bio- and energy-related materials. He also works as a research leader of a national project, Center of Innovation (COI) The center of innovation for creation of platform on big life data from unconscious sensing to sup-port human and social well-being, and managing more than 150 researchers from several universities and industries. He received many awards from domestic and international societ-ies. He has published more than 300 original papers and more than 100 reviews and books.

Li-Jun Wan was born in Dalian, Liaoning in 1957. He received his B.E and M.S degrees from Dalian University of Technology (1982 &1987) and Ph.D. from Tohoku University (Japan) in 1996. In the year of 1999 he moved back to China and became a full profes-sor in the Institute of Chemistry, Chinese Academy of Sciences (ICCAS). He is currently the di-rector of the CAS key laboratory of nanostructure and nanotech-

nology, and BNLMS. As a physical chemist, Wan has been focusing on the study of surface molecular reaction and controllable self-assembly of molecules by using electrochemical scanning tunneling mi-croscopy (STM). He has developed effective techniques in elec-trochemical STM so that the behavior of different molecules can be manipulated to construct complicate structures. Wans interest in the surface and interface electrochemistry has also make him commit to the battery-related fi elds. He has pio-neered the design and synthesis of a series of electrode materi-als with emphasis on the structure-performance relationship. Wan has published more than 360 papers in peer-reviewed journals with a total number of citations exceeding 12000 (H index 63). His work has been recognized by a number of pres-tigious awards, including Excellent Young Scientists from the National Natural Science Foundation of China (2000), CCS-BASF Youth Knowledge Innovation Prize (2002), First-class Science and Technology Award from China Association of Instrument and Analysis (2003), First-class Award of Science and Technology from Beijing Government (2005), Second-class Award of National Natural Science (2007), the Chemistry Award of The World Academy of Sciences (TWAS) (2009). Li-Jun Wan is an elected member of CAS, Fellows of TWAS and the Royal Society of Chemistry. He is the director of the academic committee of ICCAS, Chairperson of the Chinese Electrochemical Society, Vice president of the Chinese Chemi-cal Society. Wan is enlisted in the standing committee of the chemistry division of CAS and he is a member of the Academy Degrees Committee of the State Council. He is the editor-in-chief of SCIENCE CHINA CHEMISTRY, and serves on the Edito-rial and Advisory Boards of different science and technology journals including Acc. Chem. Res., JACS, Angew. Chem., Adv. Mater., Chem. Commun., Chem. Mater. and PCCP.

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Martin WinterMuenster University, Germany

Martin Winter has been researching in the fi eld of electrochemical energy stor-age and con-version for more than 20 years. He focuses on the development of new materials, compo-nents and cell designs for batteries and supercapacitors, in particular lithium-ion batteries. Martin Winter currently holds a professorship for Applied Materials Science for Electro-

chemical Energy Storage and Conversion at the Institute of Physical Chemistry at Muenster University, Germany. The full professorship developed from an endowed professorship funded by the companies Volkswagen, Evonik Industries and Rockwood Lithium from 2008 to 2012.Furthermore, Martin Winter is the founder and scientifi c head of the MEET Battery Research Center at Mnster University. MEET stands for Mnster Electrochemical Energy Technology. Recently, he became the founding director of the Helmholtz Institute Ionics in Energy Storage focusing on electrolyte research.

Hongjie DaiStanford University, USA

University (1972, 1976) and Visiting Professorships at the Uni-versity of Southampton (1983) and Oxford University (1988, 1991, 1998, and 2003). Professor Bonds major research in-terest involves the development and application of modern electroanalytical techniques, and he is the author or co-au-thor of over 800 papers, patents and books on the subject of Electrochemistry. He is the recipient of a number of Awards which include the Analytical Chemistry Division Medal of the Royal Australian Chemical Institute (1989), the Stokes Medal awarded by the Electrochemistry Division of the Royal Austra-lian Chemical Institute (1992), the Royal Society of Chemistry Award for Electrochemistry (1997), the H.G. Smith Medal of the Royal Australian Chemical Institute (1998), the Australian Academy of Science Craig Medal in 2004.and the Society for Electroanalytical Chemistry (USA) Reilley Award in 2005.

Alan Bond Monash University, Victoria, AustraliaElectrochimica Acta Gold Medal

Hongjie Dai was born in Sha-oyang, China. He is a Chinese-American Chemist and Applied Physicist at J.G. Jackson & C.J. Wood and Professor of Chemis-try at Stanford University. He is a leading fi gure in the study of carbon nanotubes.Dai received a B.S. in Phys-ics from Tsinghua University, Beijing, in 1989, and M.S. in applied sciences from Columbia University in 1991, and a Ph.D.

in Applied Physics from Harvard University in 1994 under the direction of Prof. Charles Lieber. After his postdoctoral research at Harvard, he joined the Stan-ford faculty as an assistant professor in 1997.Among his awards are the American Chemical Societys ACS Award in pure chemistry, 2002, the Julius Springer Prize for Applied Physics, 2004, and the American Physical Societys James C. McGroddy Prize for New Materials, 2006. He was elected to the American Academy of Arts and Sciences in 2009, and to the American Association for the Advancement of Science in 2011.

Professor Bond is currently Professor of Chemistry at Monash University, Victoria, Australia. Over the period 1978-1990, he was Founda-tion Professor of Chemistry at Deakin University, Victo-ria, Australia and for the pe-riod 1990-1995, Professor of Chemistry, La Trobe Univer-sity, Victoria, Australia. He received his Ph.D. (1971) and D.Sc. (1977) degrees from the

University of Melbourne, where he held teaching and research positions. He also held Visiting Fellowships at Northwestern

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New Directions in Analytical Electrochemistry

Tutorials Symposium 1

Faster, cheaper and better... Tomorrow in Electroanalytical ChemistryNew research in analytical electrochemistry is driven by our quest to better understand and more effectively measure the world around us. We see developments aimed at lower detection limits, faster analyses, lower cost and more portable systems. Electrodes with improved selectivities and greater stability over extended use are other goals. Completely new electroanalytical strategies may be needed for quantifi cation of emerging analytes of biological or environmental importance. Innovative ways of using electrochemistry to unravel the details of complex processes is another important area; this can involve pushing the physical limits and chemical frontiers of electrodes to make measurements in unusual locations. This symposium will highlight recent advances in all these areas.

Topics will include but are not limited to: New electroanalytical techniques, including hyphenated techniques, to address shortcomings in established methods

Novel electrode materials which offer advantages and new opportunities for analysis

Advanced data analysis methodologies for analysis of complex systems

New strategies for monitoring and quantifying emergent analytes (both biomarkers and contaminants ) of biological or environmental importance

Techniques and methodologies for examining the details of complex processes at the nano and microscale

Sponsored by :Division 1, Analytical Electrochemistry

Symposium OrganizersLin-Chi Chen (Coordinator), National Taiwan University, Taipei, Taiwan ([email protected])Meng-Jiy Wang, National Taiwan University of Science and Technology, Taipei, TaiwanAlison Downard, University of Canterbury, Christchurch, New ZealandDaniel Mandler, The Hebrew University of Jerusalem, Israel

Tutorial 1Fundamental Aspects and Applications of Cu ElectrodepositionRohan Akolkar Case Western Reserve University, USA

Peter Broekmann University of Bern, Switzerland

Tutorial 2 Principles and Applications of in situ in Operando Methods in ElectrochemistryNeeraj Sharma The University of New South Wales, Australia

Bluse Ching-Hsing Chen National Taiwan University of Science and Technology, Taiwan

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Symposium 2

This symposium organized by Division 2 of the ISE is aimed to be a broad-based bioelectrochemistry symposium. It will discuss all aspects of bioelectrochemistry, from fundamentals through to new technological applications.Solicited papers should encompass electrochemistry of single biomolecules, molecular assemblies, membranes, cells and tissues, and their interfaces with electrodes, together with applications in biosensors, bio-energy systems and bioelectronic devices. This symposium invites papers on theoretical and/or experimental approaches that may lead to improved understanding of the behaviour of biological systems.

Topics will include but are not limited to: Theoretical approaches that lead to an improved understanding of the electrochemical behavior of biological systems

Experimental strategies that lead to improved understanding of the electrochemical behaviour of biological systems

Novel applications of electrochemistry in biosensors and bioanalytical devices

Novel applications of electrochemistry in bio-energy systems Novel applications of electrochemistry in bioelectronics

Electrochemical Aspects of Biological Systems: Theory, Experiment and Applications

Sponsored by:Division 2, Bioelectrochemistry

Symposium OrganizersDamien Arrigan (Coordinator), Curtin University, Perth, Australia ([email protected])Shen-Ming Chen, National Taipei University of Technology, Taipei, TaiwanElena Ferapontova, Aarhus University, Aarhus, DenmarkMei-Jywan Syu, National Cheng Kung University, Tainan City, Taiwan

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Symposium 4

The focus of this symposium is on all types of low and high temperature fuel cells, as well as electrochemical generation of hydrogen. Particular emphasis will be given to the and operando characterization of fuel cells and electrolyzers, and to recent materials developments for durable fuel cell components, as well as the optimized integration of fuel cells into energy supply systems.

Topics will include but are not limited to: Synthesis and design of fuel cell materials (catalysts, electrolytes, gas diffusion layer, bipolar plates, etc) and materials for low and high temperature electrolyzers

New experimental approaches for characterization of fuel cell and electrolyzer materials

Electrocatalysis for oxygen reduction, and oxidation of hydrogen and organic fuels

Novel electrolyte materials synthesis, structural and electrochemical characterization

Improved understanding of electrochemical reaction processes in fuel cells

New insights into the degradation and aging modes of component materials and failure mechanisms of fuel cells and electrolyzers

Fuel cell operando diagnostics, characterization

Advances in Fuel Cells from Materials to Systems

Sponsored by: Division 3, Electrochemical Energy Conversion and Storage

Symposium OrganizersHiroyuki Uchida (Coordinator), University of Yamanashi, Kofu, Japan ([email protected])Lorenz Gubler (Co-coordinator), Paul Scherrer Institute, Villigen, Switzerland ([email protected])Kuan-Zong Fung, National Cheng Kung University, Tainan City, TaiwanKuei-Hsien Chen, Institute of Atomic and Molecular Sciences, Taipei, TaiwanYu-Lin Kuo, National Taiwan University of Science and Technology, Taipei, Taiwan

Symposium 3

The performance of current electrical energy storage (EES) systems falls well short of requirements for using electrical energy effi ciently in transportation, smart grid, commercial, and residential applications. Fundamental knowledge is critically needed to uncover the underlying principles that control the basic processes that determine and govern their function, operation, performance limitations and failure. With this underpinning knowledge, wholly new concepts in cell design and operation can be developed for a new class of electrical energy storage systems. A new paradigm is required to design new stable anodes, cathodes and electrolytes to provide electrochemical cells with high energy density, high power, long lifetime and adequate safety at a competitive manufacturing cost. The goal of this Symposium is to review recent R&D efforts in this fi eld to elucidate fundamental chemical, transport, electrical, and physical processes that can help improve the existing state-of the-art Li-ion batteries and stimulate development of next generation rechargeable batteries e.g., Li-S, Me-air batteries, Na-ion, redox fl ow and multi-valent systems etc.

Topics will include but are not limited to: Advanced materials, electrodes and electrolytes for rechargeable batteries

Novel rechargeable battery systems Interfacial phenomena Cell testing, performance evaluation, failure mechanisms New computational and characterization tools Safety

Batteries for Tomorrows World


Symposium OrganizersRobert Kostecki (Coordinator), Lawrence Berkeley National Laboratory, Berkeley, USA ([email protected])She-Huang Wu (Co-coordinator), Tatung University, Taipei, Taiwan ([email protected])Kuniaki Tatsumi, National Institute of Advanced Industrial Science and Technology, Osaka, JapanFu-Ming Wang, National Taiwan University of Science and Technology, Taipei, Taiwan

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Symposium 5

This symposium addresses all fundamental and practical aspects on electrochemical capacitor research, development and applications. Topics include capacitor performance for power uses such as electric vehicles and energy storage application as well as advanced materials for capacitors (e.g., carbonaceous materials and their composites, polymers, inorganic materials etc.). Novel insights into capacitors, such as in situ study of electrode/electrolyte interfaces, new designs/concepts for fabricating high performance devices, and synthesis of advanced electrolytes are welcome.

Topics will include but are not limited to: Double-layer capacitance and pseudocapacitance of porous materials

Materials with primarily faradaic pseudocapacitance: metal oxides, nitrides, sulfi des, and other advanced inorganic materials, and conducting polymers

Characterization methods for physical structures and fundamental electrochemical processes of new electrode materials and architectures

Optimization of components: current collectors, electrodes, electrolytes, separators, and packaging

Design of new devices and hybrid systems combining capacitors and other power sources (e.g., batteries, fuel cells)

Capacitor modeling for predicting performances of materials and devices

New electrolytes for capacitors ( redox active electrolytes and ionic liquids)

Aging and corrosion phenomena in capacitors

Novel Insights to Electrochemical Capacitors

Symposium 6

Solar light is the most abundant renewable energy source and has great potential to meet future global energy demands. Solar power generation has been realized in the form of electrochemical cells, such as electrochemical photo-voltaic cells, photocatalytic cells, and phtoelectrolytic cells, to produce electrical energy or hydrogen. This symposium focuses on the new progresses in the developments of the electrochemical solar cells and includes topics from materials synthesis to devices and the strategies to overcome the current limitations.

Topics will include but are not limited to: Electrochemical photovoltaic cells Photoelectrochemical cells Water splitting Dye sensitized solar cells Electrodes Electrolytes Nanostructured semiconductors and dyes for light harvesting

New Progress in Electrochemical Solar Cells



Symposium OrganizersLadislav Kavan (Coordinator), J. Heyrovsky Institute of Physical Chemistry, Prague, Czech Republic ([email protected])Anders Hagfeldt, Uppsala University, Uppsala, SwedenKuo-Chuan Ho, National Taiwan University, Taipei, TaiwanJih-Jen Wu, National Cheng Kung University, Tainan City, Taiwan

Symposium OrganizersHsi-Sheng Teng (Coodinator), National Cheng Kung University, Tainan City, Taiwan ([email protected])Chi-Chang Hu (Co-coordinator), National Tsing Hua University, Hsinchu, Taiwan ([email protected])Elzbieta Frackowiak (Coordinator), Poznan University of Technology, Poznan, Poland Masashi Ishikawa, Kansai University, Suita, JapanFrederic Favier, CNRS University of Montpellier 2, Montpellier, France

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Symposium 8

The goal of this symposium is to address the range of issues pertinent to corrosion and passivity. The breadth of the topic is intended to cover the latest developments, with particular focus on new scientifi c advances regarding: Corrosion, Passive fi lms, In-situ corrosion measurements, and Corrosion in harsh environments (e.g. nuclear, bio). Topics in closely related areas will also be considered, including environmentally assisted corrosion, corrosion modeling and the advanced characterisation of corrosion.

Corrosion and Passivity

Sponsored by: Division 4, Electrochemical Materials Science

Symposium Organizers

Nick Birbilis (Coordinator), Monash University, Clayton, Australia ([email protected])Dirk Engelberg, University of Manchester, United KingdomShinji Fujimoto, Osaka University JapanJing-Chie Lin, National Central University, Zhongli City, TaiwanChao-Sung Lin, National Taiwan University, Taipei, Taiwan

Symposium 7

The electrodeposition is a complex phenomenon which takes place at the solid/liquid interface and represents a unique approach to material synthesis and nanostructure fabrication. In last decade, the electrodeposition was proven to be one of the enabling fabrication methods behind the train of hi-tech enterprise. The most recent developments suggest that the electrodeposition becomes an attractive fabrication process in many other emerging technologies. The topics of the symposium provide the forum for discussion of the latest development in electrochemical material science and nanofabrication fi elds where electrodeposition is used as the main approach.

Topics will include but are not limited to: Alloy Electrodeposition Thin fi lms and nanostructures, Underpotential Deposition Electrochemical epitaxy Electroless deposition Bi-polar electrodeposition Additive effect on stress, macrostructure, and properties of electrodeposit

Electrodeposition of composite coatings and thin fi lms

Electrodeposition - The Frontier Approach in Material Science and Nanofabrication


Symposium OrganizersStanko Brankovic (Coordinator), University of Houston, Houston, USA ([email protected])Massimo Innocenti, University of Florence, Florence, ItalyNosang Myung, University of California, Riverside, USAWei-Ping Dow, National Chung Hsing University, Taichung City, TaiwanMing-Der Ger, National Defense University, Daxi Township, Taiwan Wei-Ping Dow, National Cheng Kung University, Tainan City, Taiwan

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Symposium 9

This symposium organized by Division 4 of the ISE focuses on the electrocatalytic materials participating in electrochemical reactions, which discuss heterogeneous or the homogeneous electrocatalysis involving in electrochemical energy conver-sion, energy storage and processes. Electrocatalytic reactions for these applications involve oxygen reduction/generation, hydrogen oxidation/generation, alcohol oxidation, fuel produc-tion from CO2, and so on. This symposium will focus on the most recent developments of electrocatalytic nanomaterials, including various aspects of their activity, stability, fabrication and characterization.Solicited papers should outline the characteristics of the elec-trocatalytic materials in the physical and chemical properties, as well as the corresponding electrochemical reactions. A tenta-tive list of topics to be covered is given below.

Topics will include but are not limited to: Electrocatalysis in fuel cells Electrocatalysis in metal-air batteries Electrocatalysis in electrolyzers Electrocatalysis in water splitting Environmental electrolysis Electrocatalysis for oxidation of small organic molecular Durability and deactivation of electrocatalysis Electrocatalyst supports Electrocatalytic processes Electrocatalytic kinetics Electrocatalysis and enzymes of bioelectrochemisty Advanced in-situ methods for interfacial phenomena of electrocatalysis

CO2 reduction

Electrocatalytic Materials


Symposium OrganizersKotaro Sasaki (Coordinator), Brookhaven National Laboratory, Upton, USA ([email protected])Andrew Lin, Chang Gung University, Toayuan, TaiwanChen-Hao Wang, National Taiwan University of Science and Technology, Taipei, TaiwanAnthony Kucernak, Imperial College London, London, UK

Symposium 10

Electrochemical Technology is poised to play an important role in the development of innovative industrial and environmental processes. This symposium focuses on recent innovations in this fi eld and will provide a forum for the discussion of the lat-est advances. Solicited papers should outline electrochemical processing in environmental, industrial or energy applications.

Topics will include but are not limited to: Progresses in fuel cells technology: looking for enhanced performance and longer lifetime

Development of fuel cells and other/mixed electrochemical energy storage devices to provide electricity for small and or mobile systems

Development of new electrode and electrolytic materials for industrial and environmental applications

Environmental aspects concerning various electrochemical treatments for degradation of organic pollutants in water and soils

Coupling green energies to electrochemical remediation devices

Bioelectrochemical devices: an interesting technological approach for valorizing organic wastes

Novel processes for industrial electrosynthesis Scale up of electrochemical processes with industrial or environmental interest: from the lab to the market

Electrochemical processes: place in nowadays and future economy

Electrochemical Technology: New Challenges for a More Competitive Economy

Sponsored by: Division 5, Electrochemical Process Engineering and Technology

Symposium OrganizersJuan Manuel Peralta-Hernandez (Coordinator), CIATEC, Leon Guanajuato, Mexico ([email protected])Shi-Chern Yen (Co-coordinator), National Taiwan University, Taipei, Taiwan ([email protected])Manuel Andres Rodrigo, Universidad de Castilla-la-Mancha, Ciudad Real, Spain Alex Peng, Industrial Technology Research Institute, Hsinchu, Taiwan

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Symposium 11 Symposium 12

The symposium will be focused on fundamental research in electrochemical transformations at molecular level in order to cross the frontiers and to design new trends in applica-tions. The stress will be given to electron transfer reactions and mechanistic studies of newly synthesized organic, organome-tallic and coordination compounds as well as molecule-like nanoparticles. Papers should outline electrochemical investigation of defi ned individual molecules or (supra)molecular systems with the aim to understand their structure redox reactivity relationship, to describe reaction mechanisms, to elucidate the principles of their action (in medicine, catalysis, analysis, etc.), and to predict their properties.

Topics will include but are not limited to: Electrochemistry and redox mechanisms of new organic, organometallic and coordination compounds

Host-guest interactions and supramolecular systems Electrochemistry of molecule-like nanoparticles Short- and long-range electron-transfer reactions Molecular (structural) factors infl uencing or directing electroactivity

Generation and identifi cation of intermediates Spectroelectrochemistry and other combinations of techniques (with ESR, NMR, MS, etc.)

New applications and mechanisms of redox catalysis Mechanisms of electron-transfer induced reaction Electrosynthetic reactions Photoelectrochemistry and electrochemically generated chemiluminescence

Molecules for emerging materials (dyes, pigments, NLO materials, etc.)

Modifi cation of surfaces via electrochemically induced electron transfer

Molecular electrochemistry in new medical challenges Quantum chemical approach to the interpretation of experi-mental data

This symposium focuses on the spectroscopic, structural and theoretical investigations of the electrifi ed interface. Recent im-provements in ex-situ and experiments, in combination with theoretical methods, are providing a detailed microscopic pic-ture of the electrochemical interface. In some cases, this insight is leading to the rational design of functional materials and processes for the electrochemical interface.Solicited papers should outline structural, spectroscopic and/or theoretical studies of the electrifi ed interface. Subjects of interest include both purely fundamental works and more ap-plied studies, devoted to the improvement of electrochemical devices on the basis of physicochemical insight (e.g. electroca-talysis, battery materials).

Topics will include but are not limited to: spectroscopy of electrochemical processes (e.g. infrared, online inductively coupled atomic emission spectros-copy, online mass spectroscopy, raman, X-ray absorption spectroscopy, X-ray photoelectron spectroscopy)

Scanning probe microscopy of electrochemical systems (e.g. scanning tunneling microscopy, scanning electrochemical microscopy, atomic force microscopy)

Bulk structural characterization of materials used in electro-chemical applications (e.g. X-ray diffraction, transmission electron microscopy, scanning electron microscopy)

Vacuum-based surface science studies applied to electro-chemical systems (e.g. X-ray photoelectron spectroscopy, Auger electron spectroscopy, ion scattering spectroscopy, temperature programmed desorption)

Theoretical simulations of electrochemical systems (fi rst-principles electronic structure theory, molecular dynamics)

Rational design of functional materials

New Important Frontiers in Molecular Electrochemistry

Physical Electrochemistry: Spectroscopic, Structural, and Theoretical Investigations of the Electrifi ed Interface

Sponsored by: Division 6, Molecular Electrochemistry

Sponsored by: Division 7, Physical Electrochemistry

Symposium OrganizersJir Ludvik (Coordinator), J. Heyrovsky Institute of Physical Chemistry, Prague, Czech Republic ([email protected])Chun-Hsien Chen (Co-coordinator), National Taiwan University, Taipei, Taiwan ([email protected])Olivier Buriez, CNRS UMR ENS, Paris, France Flavio Maran, University of Padova, Padova, ItalyArmando Pombeiro, Instituto Superior Tecnico, Lisbon, Portugal

Symposium OrganizersAndrea Russell (Coordinator), University of Southampton, Southampton, UK ([email protected])Axel Gross, Ulm University, Ulm, GermanyIfan Stephens, Technical University of Denmark, Kongens Lyngby, Denmark Jyh-Chiang Jiang, National Taiwan University of Science and Technology, Taipei, TaiwanYuh-Lang Lee, National Cheng Kung University, Tainan City, Taiwan

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Symposium 13

This symposium organized jointly by Divisions 4 and 6 of the ISE focuses on the use of electrochemical approaches to the investigation of fundamental properties of molecular and su-pramolecular architectures, composites, nanoparticles and or-ganic-inorganic hybrids, on electrosynthesis of functional and advanced materials, electrocatalysis and electrodeposition, and fi nally corrosion. Among the characterization techniques, em-phasis will be given to ex-situ and in-situ spectroscopy and microscopy, including in situ SERS, spectroscopic ellipsometry, X-ray absorption, photochemistry, scanning probe microscopy.Solicited papers should outline the interrelation between mo-lecular structure and electrochemical properties, in the pristine state, aggregates and fi lms, and how the redox properties of molecular species are exploited, at the nano- and mesoscale level, to fabricate multifunctional organized fi lms and materials. A tentative list of topics to be covered is given below.

Topics will include but are not limited to: The design, the fabrication and characterization of functional materials where molecular/supramolecular components are synergistically integrated with electrodes and solid state nanostructured materials

The computational approaches to molecules and biomolecules interaction with electrode surfaces

Functional electrode coatings aimed at developing systems for sensing, electro- and photoelectrocatalysis, corrosion and fouling prevention, and electrochemical syntheses

Symposium OrganizersFrancesco Paolucci (Coordinator), University of Bologna, Bologna, Italy ([email protected])Pawel J. Kulesza, University of Warsaw, Warsaw, Poland Renato Seeber, University of Modena and Reggio Emilia, Modena, Italy Chin-Lung Kuo, National Taiwan University, Taipei, TaiwanShirley Meng, University of California San Diego, La Jolla, USA

Symposium 14

Modeling, Design and Characterization of Nanostructured, Electroactive and Multifunctional Materials

Generating cost effective and environment benign renewable energy is a major challenge for scientifi c research and devel-opment. Solar energy, which is abundant and sustainable, has attracted enormous effort in recent years. In particular, recent advances in developing of organic/inorganic sensitiz-ers, charge-collection and electrode materials have opened a new paradigm for new solar energy conversion systems with high effi ciency, low cost, easy processing and great stability. The topics of the symposium will focus on recent develop-ment in molecular systems for solar energy conversion devices, which include solid-state dye-sensitized solar cells (ss-DSSC), quantum-dot solar cells (QDSC), extremely thin absorber solar cells (ETASC), perovskite solar cells (PSC) and solar fuel cells.

Topics will include but are not limited to: Design of various molecules for solar-to-fuels conversion Design of various dyes for ss-DSSC: organometallic dyes, metal-free organic dyes, porphyrins and so on

Development of new light absorbers for QDSC and ETASC Development of various types of organic hole-transporting materials (HTM) and electron-transporting materials (ETM) for QDSC and PSC: from small molecules to polymers

Fabrication and characterization of nanostructured metal oxide electrodes: TiO2, ZnO, Al2O3, NiO, MoO3 and so on

Structural design for planar heterojunction PSC: from n-type or p-type single-cell devices to tandem devices

Long-term stability and scale up of lab cells to industrial/module scale

Mechanistic aspects of device performance: experimental techniques and theoretical models for the characterization of charge transport, recombination, collection yield and overall effi ciency

Molecular Systems for Energy Conversion

Sponsored by: Division 3, Electrochemical Energy Conversion and StorageDivision 6, Molecular Electrochemistry

Symposium OrganizersJay Wadhawan (Coordinator), The University of Hull, Hull, UK ([email protected])Carlos Eduardo Frontana Vazquez, CIDETEQ, Queretaro, Mexico Nathan Lawrence, Schlumberger Cambridge Research, Cambridge, UKYun Chi, National Tsing Hua University, Hsinchu, TaiwanEric Wei-Guang Diau, National Chiao Tung University, Hsinchu, Taiwan

Sponsored by: Division 4, Electrochemical Materials ScienceDivision 6, Molecular Electrochemistry

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This symposium organized jointly by Divisions 5 and 7 of the ISE focuses on the use of multiscale experimental and/or theoretical approaches - from fi rst principles to the device and up to the plant and/or system level - combining physi-cal electrochemistry and electrochemical engineering in view of designing and optimizing electrochemical processes across length scales.Solicited papers should outline multiscale modelling and spec-troscopic-based diagnostics, as well as the design of materials, components, devices, plants and processes of practical interest in particular for electrochemical processing and energy tech-nologies. A tentative list of topics to be covered is given below.

Topics will include but are not limited to: Advanced experimental techniques for the determination or estimation of physicochemical properties involved in trans-port phenomena (viscosity, diffusivity, conductivity etc.) rely-ing on electrochemical and/or spectroscopic techniques

Computational electrochemistry for predictions of the struc-ture-function relationships of materials and components, physicochemical properties and electrode processes

Comparison and correlation of physicochemical properties obtained at various scales and using different techniques

Prediction of the electrochemical phenomena at interfaces (e.g. liquid/solid, solid/solid, etc.)

Progresses in understanding of interfacial phenomena at sus-pended materials

Interplaying between electrochemical, mechanical and ther-mal processes

System level modelling and control of complex electrochemi-cal processes, non-linearities and chaos

The symposium is devoted to electrochemistry of supramolec-ular and biomolecular systems including studies of host-guest, donor-acceptor interactions, electrochemically triggered mo-lecular switching and electrochemically induced motion in mo-lecular or biomolecular motors. Electron transport mechanisms in the supramolecular assemblies will be discussed, as well as their stereochemical aspects. The utility of electrochemical methods for the characterization of redox-modulating natural products and newly designed antioxidants or anticancer drugs, as well as nanocarriers for the drug delivery will be among top-ics of this symposium.

Topics will include but are not limited to: Self assembly Inclusion complexes Biological and biomimetic membranes Molecular recognition Chirality Drug carriers Redox therapy

Electrochemical Engineering from a Quantum Description to the Plant Modeling: Experiments and Design across Length Scales

Supramolecular Electrochemistry for Analysis, Medicine and Biological Sciences

Sponsored by: Division 5, Electrochemical Process Engineering and TechnologyDivision 7, Physical Electrochemistry

Sponsored by: Division 1, Analytical ElectrochemistryDivision 2, BioelectrochemistryDivision 6, Molecular Electrochemistry

Symposium OrganizersAlejandro A. Franco (Coordinator), CNRS-University of Picardie, France ([email protected])Hung-Lung Chou (Co-coordinator), National Taiwan University of Science and Technology, Taipei, Taiwan ([email protected])Franois Lapicque CNRS and University of Lorraine, Nancy, FranceJaeyoung Lee, Gwangju Institute of Science and Technology, Gwanju, Korea

Symposium OrganizersMarilia Goulart (Div. 6, Coordinator), Federal University of Alagoas, Alagoas, Brazil ([email protected])Stphane Arbault (Div. 1), University of Bordeaux 1, Pessac, France Renata Bilewicz (Div. 2), University of Warsaw, Warsaw, Poland Hsien-Chang Chang, National Cheng Kung University, Tainan City, TaiwanChii-Wann Lin, National Taiwan University, Taipei, Taiwan

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Materials and interfaces employed in advanced electrochemi-cal/electrocatalytic technologies, including fuel cells, batteries, supercapacitors and electrolyzers are recognized to be complex and dynamic on a wide range of lengthscale and timescales. To understand and improve the functioning of such electrodes and electrochemical cells, techniques that are able to monitor processes or in operando under working conditions are thus hugely valuable. This symposium will gather contributions high-lighting recent methodological and topical developments in the fi eld and those predicted to be important in the near future. The emphasis will be on advanced frontier methods, multi-technique approaches, and synergies between experimental measurements and modelling.

Topics will include but are not limited to: Investigation of electrochemical phenomena using in oper-ando methods based on advanced spectroscopic and micro-scopic techniques

Novel methods applied to electrocatalytic systems generally, fuel cells, energy storage systems and other complex electro-chemical systems, including S/TEM, NMR, mass spectrom-etry, Raman microscopy, x-ray absorption spectroscopy and diffraction, XPS and electrochemical probes, among other techniques

Studies which highlight materials performance and structur-al/morphological changes in operando

Time- and spatially-resolved measurements of electrocata-lytic reactions at and near to electrode surfaces

Applications which emphasise unusual environments and conditions (e.g. supercritical fl uids, extreme temperatures and pressures)

This Symposium will cover all ISE areas not compatible with topical symposia.

Novel in Situ in Operando Methods

General Session

Sponsored by: Division 3, Electrochemical Energy Conversion and Storage; Division 7, Physical Electrochemistry;Division New Topics Committee

Sponsored by: All Divisions

Symposium OrganizersHector Abruna (NTC, Coordinator), Cornell University, Ithaca, USA ([email protected])Patrick Unwin (NTC), University of Warwick, Coventry, UKAnthony Kucernak (Div. 7), Imperial College London, London, UK Michael Eikerling (Div 7), Simon Fraser University, Burnaby, CanadaShawn D. Lin, National Taiwan University of Science and Technology, Taipei, TaiwanMing Chang Yang, National Cheng Kung University, Tainan City, Taiwan

Symposium OrganizersJustin Gooding (Coordinator), The University of New South Wales, Sydney, Australia ([email protected])Juan M. Feliu, University of Alicante, Alicante, SpainNae-Lih Wu, National Taiwan University, Taipei, TaiwanLiang-Yih Chen, National Taiwan University of Science and Technology, Taipei, Taiwan

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General Information

VenueThe Taipei International Convention Center (TICC) is a spectacular tribute to the emergence of Taipei as a world-class business destination. The TICC (www.ticc.com.tw) is situated in the foothills of eastern Taipeis Hsin-yi District, where many landmark buildings, including the Taipei City Hall, Taipei City Council, National Dr. Sun Yat-Sen Memorial Hall, and Taipei 101 are all within walking distances.Taipei is the capital of Taiwan and is its largest city. Located to the north, its proximity and accessibility to Taiwans business and production regions is just as appealing as the national parks and eco-reserves that surround and exist within the city itself.

TravelTaiwan lies on the western edge of the Pacifi c rim with a population of 23 million people. Taiwan Taoyuan International Airport is just 50 minutes drive away from Taipei and it offers international connections with major cities in America, Europe, Australia and Asia.

ClimateTaipei has a subtropical climate. In October, the weather is sunny but cooler and the rainfall is at its lowest. The daytime temperatures and night temperatures are fairly similar and average 25C. It is a nice and comfortable season for travelling to Taipei in October.

AccommodationTaipei offers a broad variety of accommodations for every bud-get. From school guesthouse, bed & breakfast, youth hostel to design or luxury hotels, you will be able to fi nd the best one to meet your needs.

Important Dates and DeadlinesOpening date for abstract submission: 10 January, 2015Deadline for abstract submission: 26 April, 2015Conference begins: 4 October, 2015


4 - 9 October 2015Taipei, Taiwan

http://annual66.ise-online.org

e-mail: [email protected]

A special issue of the Societys journal, Electrochimica Acta, is planned based on selected original contributions made at the conference. Selection will be made by an international Editorial Committee comprising a Guest Editor for each Symposium, appointed and co-ordinated by the Editor-in-Chief.

Electrochimica Acta

Authors are invited to submit an abstract in English of no more than one page in length, including fi gures, tables and references. Abstracts must be submitted online through the ISE website (http://annual66.ise-online.org). The site will open for submission of abstracts on 10 January 2015. The closing date for submission of abstracts will be 27 April 2015. For details please refer to the ISE website. At the close of the submission, the Symposium Organizers will assign contributions to either oral or poster presentations.

Call for Papers

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ISE 66 TAIPEI MEETING

Documents

Transcript of ISE 66 TAIPEI MEETING