Honolulu PRiME 2012 - Honolulu, Hawaii

October 7 - October 12, 2012



B2 - Electrochemical Capacitors


Monday, October 8, 2012

South Pacific 4, Mid-Pacific Conference Center, Hilton Hawaiian Village

Pseudocapacitance I

Co-Chairs: J. Long and W. Sugimoto
TimeProgr#Title and Authors
08:00   487   A Critical View on Graphene-Metal Oxide Based Electrochemical Supercapacitors P. Gao (Institut Charles Gerhardt Montpellier), S. Baek, N. Pinna (Seoul National University), F. Moser, T. Brousse (University of Nantes), and F. Favier (Institut Charles Gerhardt Montpellier)
08:40   488   Tuning the Electrolytic Manganese Oxide/Graphene Oxide Nanocomposites for High-Energy Asymmetric Electrochemical Capacitors in Aqueous Electrolytes K. I. Ozoemena (Council for Scientific and Industrial Research), C. J. Jafta (CSIR), M. K. Mathe (Council for Scientific and Industrial Research), and S. Chen (University of California)
09:00   489   Pseudocapacitive Behavior of Hierarchical Porous Carbide-Derived Carbon with Integrated Niobium Pentoxide Nanoparticles V. Presser (Drexel University), E. Perre (University of California), M. Lukatskaya (Drexel University), B. Dunn (University of California), and Y. Gogotsi (Drexel University)
09:20   490   MnO2/Carbon Nanocomposite Electrode Prepared Via Molecular Bridging C. Ramirez Castro (University of Nantes), R. Retoux (Université de Caen Basse-Normandie), A. Morel, O. Crosnier, L. Athouël, P. Guillemet, F. Moser, C. Martin (University of Nantes), D. Bélanger (Université du Québec à Montréal), and T. Brousse (University of Nantes)

Pseudocapacitance II

Co-Chairs: F. Favier and J.M. Ko
TimeProgr#Title and Authors
10:00   491   Hydrous Ruthenium Oxide: A Pseudocapacitance Champ with Lessons of Relevance for the Redesign of Energy-Storage Architectures D. R. Rolison (U.S. Naval Research Laboratory)
10:40   492   An Investigation of Nanostructured Thin Film α-MoO3 Based Supercapacitor Electrodes in an Aqueous Electrolyte B. Mendoza Sanchez (University of Oxford), T. Brousse, C. Ramirez Castro (University of Nantes), V. Nicolosi, and P. Grant (University of Oxford)
11:00   493   Kinetic and Mass Transport Phenomena in Different Phases of Manganese Dioxide for Application in Electrochemical Capacitors M. Dupont and S. W. Donne (University of Newcastle)
11:20   494   Transition Metal Nitrides Thin Films for Supercapacitor Applications S. Bouhtiyya (Université de Lorraine), R. Lucio-Porto, J. Ducros (Université de Nantes), P. Boulet, F. Capon (Université de Lorraine), T. Brousse (University of Nantes), and J. Pierson (Université de Lorraine)
11:40   495   New Developments in Colloidal Fabrication of Manganese Dioxide-Carbon Nanotube Electrodes of Supercapacitors I. Zhitomirsky (McMaster University)

Pseudocapacitance III

Co-Chairs: S.-G. Park and A. Balducci
TimeProgr#Title and Authors
14:00   496   Research on Conducting Polymer/Carbon Composite Supercapacitors: Toward Enhanced Cycle Stability and Power Performance N. N. Wu and Y. Weng (National Taiwan University)
14:40   497   Polyaniline-MnO2 Nanocomposite Supercapacitor Electrodes Prepared by Galvanic Pulse Polymerization G. Pandey and A. Rastogi (Binghamton University (SUNY))
15:00   498   Electrochemical Codeposition of Polyaniline and Tungsten Oxide for Supercapacitor B. Zou and X. Liu (Northestern University)
15:20   499   Aqueous Hybrid Capacitor Based on Doping/Dedoping of Lithium- Ion into Conducting Polymer J. Ahn (Korea Institute of Industrial Technology), Y. Shul (Yonsei University), and H. Kim (Korea Institute of Industrial Technology)
15:40   500   Binder Free Thick Electrodes of Polyaniline Nanofibers/ Multiwalled Carbon Nanotubes M. Hyder, S. Lee, Y. Shao-Horn, and P. Hammond (Massachusetts Institute of Technology)

Tuesday, October 9, 2012

South Pacific 4, Mid-Pacific Conference Center, Hilton Hawaiian Village

Carbon I

Co-Chairs: N.L. Wu and S. Donne
TimeProgr#Title and Authors
08:00   501   Electrochemical Characteristics and Application of Linear Carbon for Electrochemical Capacitors S. Park (Chungbuk National University), J. Yang (Chunghuk National University), H. Kim, and H. Kimm (PureEchem Co. Ltd.)
08:40   502   Chemical Modification of Carbons with Quinones by the Diazonium Chemistry for Application in Electrochemical Capacitors M. Weissmann, A. Le Comte, G. Pognon, C. Cougnon (Université du Québec à Montréal), T. Brousse (University of Nantes), and D. Bélanger (Université du Québec à Montréal)
09:00   503   Nitrogen Doped Graphene a High Efficient Electrode for Next Generation Supercapacitors A. Yu, F. M. Hassan, Z. Chen, and V. Chabot (University of Waterloo)
09:20   504   Fine-Tuning the Carbon - Electrolyte Interface for Designing High Energy Density Double Layer Capacitors P. Simon, B. Daffos, R. Lin, P. Taberna (Université Paul Sabatier), and Y. Gogotsi (Drexel University)

Carbon II

Co-Chairs: Y. Gogotsi and K. Lian
TimeProgr#Title and Authors
10:00   505   Performance Limits of 2 V C/C Supercapacitors in Alkali Sulfate Aqueous Media F. Béguin, K. Fic, P. Ratajczak, K. Jurewicz, Q. Abbas, G. Lota (Poznan University of Technology), G. Gao, L. Demarconnay, E. Raymundo (CRMD University), and E. Frackowiak (Poznan University of Technology)
10:20   506   Diameter Dependent Doping of Single-Walled Carbon Nanotube Used as Electrical Double Layer Capacitor Electrode A. Al-zubaidi, Y. Ishii, T. Matsushita, and S. Kawasaki (Nagoya Institute of Technology)
10:40   507   Three Dimentional Graphene-MWNTs Foam Architectures for Electrochemical Capacitors W. Wang, S. Guo, M. Ozkan, and C. Ozkan (University of California, Riverside)
11:00   508   Effect of Additives on the Hydrothermal Synthesis of Carbon Nano- and Micro-Spheres and Their Performance in Double-Layer Capacitors I. Kunadian, R. Chen, S. M. Lipka, C. R. Swartz, and F. Rogers (University of Kentucky)
11:20   509   First Principles-Inspired Design Strategies for Carbon Aerogel Supercapacitors B. C. Wood, T. Ogitsu, J. Lee (Lawrence Livermore National Laboratory), M. Otani (National Institute of Advanced Industrial Science and Technology), T. Baumann, M. Stadermann, M. A. Worsley, A. Wittstock, M. Merrill, and J. Biener (Lawrence Livermore National Laboratory)
11:40   510   Temperature effects in Activated Carbon Supercapacitors D. W. Kirk (University of Toronto)


Co-Chairs: M. Morita and P. Kulesza
TimeProgr#Title and Authors
14:00   511   Redox Active Electrolytes for Electrochemical Capacitors E. Frackowiak, K. Fic, M. Meller, and G. Lota (Poznan University of Technology)
14:40   512   Mixed Ionic Liquid Electrolytes and Electrochemical Double Layer Capacitors E. T. Fox, J. S. Dickmann, J. E. Weaver, J. L. Allen, and W. A. Henderson (North Carolina State University)
15:00   513   Electrochemical Capacitor Using a Highly Conductive Ionic Plastic Crystal R. Taniki, K. Matsumoto, T. Nohira, and R. Hagiwara (Kyoto University)
15:20   514   Influence of the Organic Solvent Additives on the Properties of 1-Ethyl-3-Methylimidazolium Tetrafluoroborate as Supercapacitor Electrolyte R. Palm, H. Kurig, A. Jänes, and E. Lust (University of Tartu)

Wednesday, October 10, 2012

South Pacific 4, Mid-Pacific Conference Center, Hilton Hawaiian Village

Devices and Applications I

Co-Chairs: E. Frackowiak and K. Naoi
TimeProgr#Title and Authors
08:00   515   Advanced Capacitors for Next Generation and Their R&D of Material in Nippon Chemi-Con K. Tamamitsu, S. Suematsu (Nippon Chemi-con Corp.), S. Ishimoto, and H. Uchi (Nippon Chemi-Con Corporation)
08:40   516   Electrochemical Capacitor Usable Power for Hybrid Electric Vehicle Applications as Determined from Transient Electrical Response D. A. Corrigan, C. Fortin, and A. Zabik (Wayne State University)
09:00   517   Characteristics of Electric Double Layer Capacitor Based on an Electrode Utilizing SWCNT on "Three-Dimensional Porous Aluminum" - Improvement of Electric Performance at Low Temperature D. Iida, T. Noguchi, M. Kuramoto (Meidensha Corporation), K. Okuno, A. Hosoe, M. Majima, and Y. Nakai (Sumitomo Electric Industries Ltd.)
09:20   518   A New Aqueous Hybrid Electrochemical Capacitor with a 4 V Operating Voltage W. Sugimoto, T. Ban, Y. Shinohara, S. Makino, and W. Shimizu (Shinshu University)

Devices and Applications II

Co-Chairs: K.B. Kim and J. Miller
TimeProgr#Title and Authors
10:00   519   The Next Generation "Nanohybrid" and "SuperRedox" Capacitors K. Naoi (Tokyo University of Agriculture and Technology)
10:20   520   Development and Evaluation of an Asymmetric Capacitor with a Nickel/Carbon Foam Positive Electrode B. C. Cornilsen, J. Wang, P. Sasthan Kuttipillai, T. N. Rogers, W. Yeo, M. B. Chye, and A. Singh Bhatia (Michigan Technological University)
10:40   521   Asymmetric Supercapacitors Consisting of a Graphene-Based Anode and Oxide-Based Cathodes in Aqueous Electrolytes C. Hu, C. Liu, C. Chen, T. Wu, and K. Chang (National Tsing Hua University)
11:00   522   Testing of MnO2 Aqueous Hybrid Supercapacitors under Extreme Climatic Conditions A. J. Roberts and R. Slade (University of Surrey)
11:20   523   Structured EDLC Electrode with Through-Plane Microchannel T. Okura, A. Morimoto, G. Inoue, and M. Kawase (Kyoto University)
11:40   524   Tailoring Carbons for Energy Storage Via Hydrogen Evolution and Capture under Anodic Biasing Conditions in Neutral pH Aqueous Electrolytes S. Chun (Carnegie Mellon University), S. Shanbhag (Aquion Energy), and J. F. Whitacre (Carnegie Mellon University)

Young Investigators

Co-Chairs: P. Simon and Y.-Y. Xia
TimeProgr#Title and Authors
14:00   525   Understanding the Charging Mechanism of Nanoporous Carbon Electrodes from Molecular Dynamics Simulations M. Salanne, C. Merlet, B. Rotenberg (Universite Pierre et Marie Curie), P. Madden (University of Oxford), P. Taberna, P. Simon (Université Paul Sabatier), and Y. Gogotsi (Drexel University)
14:20   526   A Powerful Approach for Preparing Single-Phase Unitary/Binary Oxides-Graphene Composites K. Chang (Taiwan Bluestone Technology Co., Ltd.) and C. Hu (National Tsing Hua University)
14:40   527   Nanoporous Carbon Materials for Electrical Double Layer Capacitors G. Y. Yushin (Georgia Institute of Technology)
15:00   528   High Voltage Electrochemical Double Layer Capacitors Containing Adiponitrile-Based Electrolytes A. Balducci, A. Brandt (Westfälische Wilhelms University of Muenster), P. Isken, and A. Lex-Balducci (Westfälische Wilhelms-University Münster)
15:20   529   Dramatic Improvements in Electric Double-Layer Capacitors by Using Polysaccharides M. Yamagata, S. Ikebe, Y. Kasai, K. Soeda, and M. Ishikawa (Kansai University)
15:40   530   NMR Studies on the Mechanism of Electrochemical Double Layer Capacitors H. Wang, T. K. Köster (University of Cambridge), N. Trease (Stony Brook University), J. Ségalini, P. Taberna, P. Simon (Université Paul Sabatier), Y. Gogotsi (Drexel University), and C. P. Grey (University of Cambridge)
16:00   531   "Nanohybrid Capacitor" Utilizing Li4Ti5O12 Composited with Single-Walled Carbon Nanotube J. Miyamoto (Tokyo University of Agriculture and Technology), S. Suematsu, K. Tamamitsu (Nippon Chemi-con Corp.), K. Hata (National Institute of Advanced Industrial Science and Technology), S. Iijima (Advanced Industrial Science and Technology), and K. Naoi (Tokyo University of Agriculture and Technology)

Kamehameha Exhibit Hall 3, Level 1, Hawaii Convention Center

B2 - Poster Session

TimeProgr#Title and Authors
o   532   Double Templates Synthesis of Mesoporous Nanowires J. Lee (Nanyang Technological University)
o   533   Influence of Organic Solvents on Carbon-Layer Structure in Electrical-Double-Layer Capacitors A. Banerjee, P. Suresh Kumar, and A. K. Shukla (Indian Institute of Science)
o   534   Polypyrrole-Covered MnO2 as Electrode Material for Hydrid Supercapacitor A. Bahloul, B. Nessark (Université de Ferhat Abbas), E. Briot, H. Groult, A. Mauger, and C. M. Julien (Université Pierre et Marie Curie)
o   535   3-D Graphene/Metal Oxide Composite Material for Supercapacitors S. Guo, W. Wang, C. Ozkan, and M. Ozkan (University of California, Riverside)
o   536   Influence of Electrode Mass on the Electrochemical Performance of Asymmetric Supercapacitors with Nano-Ni(OH)2 and Activated Carbon Electrodes Y. Tian, J. Yan, R. Xue, H. Lixing, and B. Yi (Chinese Academy of Sciences)
o   537   A General Model for Porous Layer Pseudo-Capacitive Impedance Spectrum P. Guillemet, O. Crosnier, and T. Brousse (University of Nantes)
o   538  
Promising Bio-Carbon for Oxygen Reduction and Supercapacitor X. Yang and H. Zhu (Chinese Academy of Sciences)
o   539   Nitrogen-Enriched Metallophthalocyanine/Graphene Oxide Nanocomposites for High-Energy Asymmetric Electrochemical Capacitors in Aqueous Electrolytes K. I. Ozoemena (Council for Scientific and Industrial Research), J. Lekitima, K. Makgopa (University of Pretoria), C. J. Jafta (CSIR), and S. Chen (University of California)
o   540   Ar+ Plasma Enhanced Vertically Oriented Graphene Supercapacitors M. Cai, R. A. Outlaw (College of William and Mary), S. M. Butler, and J. R. Miller (JME Inc.)
o   541   Graphene Nanowall Supercapacitors with Ultra-High Performance H. Yen (Academia Sinica), Y. Horng (National Taiwan University), M. Hu (Academia Sinica), W. Yang, Y. Tai (National Taiwan University of Science and Technology), L. Chen (National Taiwan University), and K. Chen (Academia Sinica)
o   542   Polyacrylonitrile and 1-Ethyl-3-Methylimidazolium Thiocyanate Based Gel Polymer Electrolyte for Solid-State Supercapacitors with Graphene Electrodes G. Pandey and A. Rastogi (Binghamton University (SUNY))
o   543   Cathodic Synthesis of Birnessite Films for Pseudocapacitor Application T. Tanimoto, H. Abe, K. Tomono, and M. Nakayama (Yamaguchi University)
o   544   EQCM Investigation on Electrodeposition and Charge Storage Behavior of Birnessite-Type MnO2 M. Shamoto, T. Tanimoto, K. Tomono, and M. Nakayama (Yamaguchi University)
o   545   Study of Storage Capacity in Electrochemical Double Layer Capacitor Using Graphene and Blends of Graphene with Carbon C. Subramaniam (VIT University), T. Maiyalagan (Nanyang Technological University), G. Velayutham (Anabond Sainergy Fuel Cell India Pvt. Ltd.), and S. Bollepalli (Sainergy Tech Inc.)
o   546   Ordered Mesoporous/Microporous Carbon Sphere Arrays Derived from Chlorination of Mesoporous TiC/C Composite and Their Application for Supercapacitors D. D. Zhou, H. Liu, Y. Wang, C. Wang, and Y. Xia (Fudan University)
o   547   Ion-Exchange/Activation Combination Method to Synthesize 3D Hierarchical Porous Graphitic Carbon with Interconnected Pore Structure as Electrode Material for Supercapacitors Y. Li and P. Shen (Sun Yat-Sen University)
o   548   Designing Porous Microstructures of NiCo2O4 Spinel Nanoparticles by Using CTAB-Assisted Dispersion C. Hsu (National Tsing-Hua University), K. Chang, and C. Hu (National Tsing Hua University)
o   549   Effect of Manufacturing Factors on Electrochemical Performance of Carbon-PTFE Electrode for EDLC I. Kim, S. Yang, and S. Lee (Korea Electrotechnology Research Institute)
o   550   A New Porous Anode Material Electrochemically Synthetized from Polycyclic Aromatic Hydrocarbons M. Wagner (Åbo Akademi University), C. Kvarnström (University of Turku), A. Ivaska, and J. Bobacka (Åbo Akademi University)
o   551   NaClO4 and NaPF6 as Potential Non-Aqueous Electrolyte Salts for Electrical Double Layer Capacitor Application A. Laheäär, A. Jänes, and E. Lust (University of Tartu)
o   552   Gel-Based Activated Carbon Electrode for EDLC Supercapacitors V. Jouille, C. Galindo, M. Paté, P. Le Barny, and M. Pham Thi (Thales Research & Technology)
o   553   Alginate Binder for High Power EDLC S. Ikebe (Kansai university), S. Yamazaki (DAIKIN INDUSTRIES, ltd.), M. Yamagata, and M. Ishikawa (Kansai University)
o   554   The effect of Electrolyte on the Hybrid Capacitor of LiMn2O4/AC and LiCoO2/AC Prepared by Chemical Activation J. Lee and H. Yoon (Chungbuk National University)
o   555   Quinone-Functionalized Carbon Nano-Onion for Pseudocapacitor Applications D. M. Anjos (Oak Ridge National Laboratory), V. Presser, J. McDonough, Y. Gogotsi (Drexel University), G. M. Brown, and S. Overbury (Oak Ridge National Laboratory)
o   556   Electrochemical Characteristic of CNT Sphere by Aggregation of W/O Emulsion Process H. Kim (Chungbuk National University), J. Yang (Chunghuk National University), H. Kim, and S. Park (Chungbuk National University)
o   557   Nonaqueous Proton Conducting Gel Electrolyte for Supercapacitors A. A. Ojrzynska (Warsaw University of Technology), I. Rukowska (University of Warsaw), P. Simon (Université Paul Sabatier), P. J. Kulesza (University of Warsaw), and W. Wieczorek (Warsaw University of Technology)
o   558   The Electrochemical Behavior of CNFs by Liquid Phase Carbonization Using Polyethylene Oxide(PEO) S. Ahn, J. Yang (Chungbuk National University), H. Kim (PureEchem Co. Ltd.), H. Habazaki (Hokkaido University), and S. Park (Chungbuk National University)
o   559   Activated Mesophase Pitch for High Performance Electric Double Layer Capacitors C. Huang, M. Hsueh, and H. Teng (National Cheng Kung University)
o   560   Comparative Study of Using Chlorine and Hydrogen Chloride for Synthesis of Titanium Carbide Derived Carbon I. Tallo, T. Thomberg, A. Jänes, and E. Lust (University of Tartu)
o   561   The Contribution of N-Containing Functional Groups on Graphene for EDLC in Acidic and Alkaline Electrolytes Y. Lee, K. Chang, and C. Hu (National Tsing Hua University)
o   562   A 3.9 V Lithium/Activated Carbon Hybrid Capacitor Based on an Aqueous Electrolyte W. Shimizu, S. Makino, and W. Sugimoto (Shinshu University)
o   563   Chemical Vapor Deposition Synthesis of Carbon Coated Graphite for Hybrid Capacitor Y. Kim (Battery R&D Association of Korea)
o   564   Performance of Supercapacitors Based on Graphene Oxide and Mesoporous Carbon by Screen Printing I. Carrera Leon, J. Baas López, and D. Pacheco Catalán (Centro de Investigación Científica de Yucatán)
o   565   Potential Control with AC Electrode Capacity for Hybrid Capacitor J. Yang (Chunghuk National University), Y. Yuk, H. Kim (PureEchem Co. Ltd.), and S. Park (Chungbuk National University)
o   566   Fabrication and Optimization of Nanoparticulate Manganese Dioxide Thin-Film Electrochemical Capacitor Prototypes S. Pang, B. Wee, and S. Chin (Universiti Malaysia Sarawak)
o   567   Electrochemical Properties of Electrochemical Capacitors Using NiO Electrode M. Chiku, M. Toda, E. Higuchi, and H. Inoue (Osaka Prefecture University)
o   568   N-Butyl-N-Methylpyrrolidinium-Dicyanamide Ionic Liquid as the Electrolyte for Manganese Oxide Pseudo-Capacitor H. Cheng, I. Sun, C. Su (National Cheng Kung University), M. Lee (National Central University), W. Tsai (National Cheng Kung University), J. Chang (National Central University), and Y. Fu (National University of Tainan)
o   569   Capacitance Enhancement of Anodic ZrO2 Films by Simultaneous Incorporation of Silicon and Yttrium Species M. Ishizuka, E. Tsuji, Y. Aoki, and H. Habazaki (Hokkaido University)
o   570   N-doped Graphite Oxide Synthesized from Photocatalytic Reduction for Electrochemical Capacitors H. Huang and H. Teng (National Cheng Kung University)
o   571   Organic-Inorganic Hybrid Materials for Supercapacitors V. Ruiz, J. Suarez-Guevara, and P. Gomez-Romero (CIN2-CSIC)
o   572   Electrochemical Properties of Layered (Ni,Co,Mn) Oxide Prepared by Co-Precipitation Method as Electrodes for Electrochemical Capacitors M. Yano, S. Suzuki, and M. Miyayama (The University of Tokyo)
o   573   Substrate effects on the Supercapacitive Behavior of Electrodeposited Manganese Oxides M. Glenn and S. W. Donne (University of Newcastle)
o   574   Li Distribution in Carbon Anode with Li Pre-Doping for Li-Ion Capacitor T. Toki, M. Yamagata, and M. Ishikawa (Kansai University)
o   575   Study of Polypyrrole-Manganese Oxide Composites as Supercapacitor Electrode Materials P. Ningsih, C. Z. Holdsworth, and S. W. Donne (University of Newcastle)
o   576   Aqueous Asymmetric Electrochemical Capacitors: From Fundamental Electrode Design to Practical Considerations J. W. Long, M. B. Sassin (U.S. Naval Research Laboratory), B. Willis, C. Hoag (U. S. Naval Research Laboratory), D. R. Rolison (U.S. Naval Research Laboratory), A. Mansour (Naval Surface Warfare Center), S. G. Greenbaum (Hunter College of NY), J. M. Wallace, and K. Pettigrew (U. S. Naval Research Laboratory)
o   577   Pulse-Electropolymerization of Polypyrrole on Free-Standing Graphene Films for Efficient Flexible Supercapacitors F. M. Hassan, Z. Chen, A. Davies, J. Choi, and A. Yu (University of Waterloo)
o   578   Optimization of Activated Carbon Materials for Lithium-Ion Capacitor Applications D. A. Totir, S. Letaj, D. Carruthers, M. Petruska, M. King, and M. Wodjenski (Advanced Technology Materials, Inc.)
o   579   Double Layer Capacitor Performances of Porous Carbon Electrodes Derived from Cyclic Oligosaccharide M. Tokita, M. Egashira, N. Yoshimoto, and M. Morita (Yamaguchi University)
o   580   Selective Adsorption of Ions into Nanoporous Carbons: A View Beyond Just the Mere Ion Size S. Sigalov, M. Levi, G. Salitra, D. Aurbach (Bar-Ilan University), A. Jänes, E. Lust (University of Tartu), and I. C. Halalay (General Motors Global R&D)
o   581   An Asymmetric Electrochemical Capacitor with Activated Carbon Electrodes in Organic Electrolyte X. Tian, S. Dsoke, C. Täubert, and M. Wohlfahrt-Mehrens (ZSW-Center for Solar Energy and Hydrogen Research)
o   582  
Addressing the Conductivity Issue in Electrochemical Supercapacitor Electrodes X. Pétrissans, D. Giaume, J. Badot, and P. Barboux (CNRS)
o   583   Electrochemically Reduced Graphene Oxide Sheets as High Performance Supercapacitors J. Yang and S. Gunasekaran (The University of Wisconsin-Madison)
o   584   Exploring the Cycle Behavior of Electrodeposited Vanadium Oxide Supercapacitor Electrodes in Various Aqueous Environments A. M. Engstrom and F. M. Doyle (University of California, Berkeley)
o   585   Fabrication of Graphite Oxide/ PEDOT-PSS/ Carbon Nanotubes Composite Paper Via One Step Solution-Casting Synthesis for High Performance Flexible Electrode Y. Weng and N. N. Wu (National Taiwan University)
o   586   Synthesis and Characterization of N-Methylacetamide/LiBF4 Complex as an Ionic Liquid Electrolyte for Supercapacitor B. Bang and T. Yeu (Chung-Ang University)
o   587   In Situ Electrochemical Deposition of MnO2 on CNTs for Ultracapacitor Applications S. Raina, S. Hsu, W. Kang, J. Huang, and M. Yilmaz (Vanderbilt University)
o   588   Highly Conductive Activated Carbon for the Application of Supercapacitor Y. Lin, W. Wang, and C. Cheng (Industrial Technology Research Institute)
o   589   Characterization of LiNi1/3Mn1/3Co1/3O2/C Composite Positive Electrodes for Non-Aqueous Supercapacitors B. Bang and T. Yeu (Chung-Ang University)
o   590   Enhanced Electrochemical Supercapacitors Integrated with Polythiophene Using Oxidative Chemical Vapor Deposition S. Nejati, C. Tran (Drexel University), T. E. Minford (Drexel Univeristy), V. Kalra (Drexel University), and K. K. Lau (Drexel Unversity)
o   591   Comparative Study of Electrode Stabilization Technique for Graphene-Polyaniline Nanocomposite Electrodes Using Dielectrics for Supercapacitor Applications S. A. Ketkar, M. Ram, A. Kumar, T. Weller, and A. M. Hoff (University of South Florida)
o   592   Pseudo-Capacitive Performance of Sol-Gel Manganese Oxide/Graphene Electrodes with Various Heat-Treatments M. Lee (National Central University), C. Lin (Taipei Medical University), C. Wu, C. Wang, C. Chen (Feng Chia University), and J. Chang (National Central University)
o   593   Electrochemical Behavior of Electrolytes at Porous Electrode Investigated with Transmission-Line Model N. Nambu and T. Satoh (Tokyo Polytechnic University)

Thursday, October 11, 2012

South Pacific 4, Mid-Pacific Conference Center, Hilton Hawaiian Village

Devices and Applications III

Co-Chairs: E. Lust and J.M. Ko
TimeProgr#Title and Authors
08:00   594   Advances in Solid Electrochemical Capacitors K. Lian, H. Gao, H. Wu, K. Hu, and S. Ketabi (University of Toronto)
08:40   595   Planar Electrochemical Capacitor with Gelled Electrolyte J. R. Miller (JME Inc.), R. A. Outlaw, M. Cai (College of William and Mary), and S. M. Butler (JME Inc.)
09:00   596   Soft Carbon as Anode Material in Lithium Ion Capacitors with a Propylene Carbonate Based Electrolyte M. Schroeder (Westfälische Wilhelms University of Muenster), M. Winter, S. Passerini (University of Münster), and A. Balducci (Westfälische Wilhelms University of Muenster)
09:20   597   Development of Solid-State Photo-Supercapacitor by Coupling Dye-Sensitized Solar Cell Utilizing Conducting- Polymer Charge Relay with Proton-Conducting Membrane Based Electrochemical Capacitor P. J. Kulesza, M. Skunik, K. Grzejszczyk (University of Warsaw), N. Vlachopoulos, L. Yang, L. Häggman, and A. Hagfeldt (Uppsala University)

Devices and Applications IV

Co-Chairs: F. Beguin and K. Tamamitsu
TimeProgr#Title and Authors
10:00   598   Specific Performance of Electrical Double Layer Capacitors Based on Different Separator Materials in Room Temperature Ionic Liquid K. Tõnurist, T. Thomberg, A. Jänes, and E. Lust (University of Tartu)
10:40   599   Hybrid Supercapacitor Using Mesoporous Carbon and Ti-Based Material Y. Xia, H. Liu, G. Zhu, and Y. Wang (Fudan University)
11:00   600   Surface Characterization of Supercapacitor Electrodes after Long-Lasting Constant Current Tests A. Jänes, R. Kanarbik, J. Eskusson, and E. Lust (University of Tartu)
11:20   601   Ultrahigh Rate Solid-State Supercapacitors with Graphene Additives Y. Chen, K. Chiu (Feng Chia University), H. Lin (Nation Taiwan University), and C. Tsai (Taiwan Textile Research Institute)
11:40   602   Electrochemical Flow Capacitors: A New Concept for High-Power Scalable Energy Storage C. R. Dennison, V. Presser, J. Campos, K. W. Knehr, E. C. Kumbur, and Y. Gogotsi (Drexel University)

General Session

Co-Chairs: C.C. Hu and T. Brousse
TimeProgr#Title and Authors
14:00   603   Nanoscale Characterization of CDC Supercapacitors by In Situ Scanning Probe Microscopy Methods T. M. Arruda (Oak Ridge National Laboratory), M. Heon, V. Presser, Y. Gogotsi (Drexel University), and N. Balke (Oak Ridge National Laboratory)
14:20   604  
Pseudocapacitance of MnO2 Originates from Reversible Insertion/Desertion of Li-Ion Studied Using In Situ XAS in Novel Ionic Liquid M. Deng (National Synchrotron Radiation Research Center), J. Chang (National Central University), C. Wang (National Hsinchu University of Education), J. Chen, and K. Lu (National Synchrotron Radiation Research Center)
14:40   605   Measuring Ion Transport in Energy Storage Devices Using In Situ Time-Resolved Infrared Spectroscopy F. W. Richey, B. Dyatkin, Y. Gogotsi, and Y. A. Elabd (Drexel University)
15:00   606   ASAXS Measurements as a Powerful Technique for Structural Investigation of MnO2-Carbon Hybrid Supercapacitor Electrodes C. Weber, V. Lorrmann, G. Reichenauer, and J. Pflaum (Bavarian Center for Applied Energy Research)
15:20   607   In Situ Characterization of Transition Metal Nitride Supercapacitor Electrodes P. Pande, A. E. Sleightholme, P. Rasmussen, A. Deb, J. Penner-Hanh, and L. T. Thompson (University of Michigan)
15:40   608   Thermodynamics in Porous Electrodes: A Monte Carlo Simulation Study K. Kiyohara and K. Asaka (National Institute of Advanced Industrial Science and Technology)
16:00   609   Capacitance and Electric Double Layer Structure in Ionic Liquid-Based Supercapacitors with Nanopatterned and Nanostructured Electrodes D. Bedrov, L. Xing, and J. Vatamanu (The University of Utah)
16:20   610   Interaction Nature of Molecular Oxides with Keggin Structure with Carbon Matrices to Improve Capacitance and Cycling Performance in Supercapcitor Cells A. CUENTAS-GALLEGOS (Universidad Nacional Autónoma de México), T. Brousse (University of Nantes), H. Mosqueda (Universidad Autónoma de Nuevo Leon), C. Martin (University of Nantes), and D. Baeza Rostro (Universidad Nacional Autónoma de México)