Electrochemical Capacitors 1

Monday, 30 May 2016: 08:00-12:00
Indigo Ballroom A (Hilton San Diego Bayfront)
Chair:
S. R. Narayanan
08:00
9
3D-Interconnected Channels of Ordered Mesoporous Carbon (3D-OMC) : Effective Electrode Material for Electrochemical Supercapacitors
S. Arulmani (CSIR-Central Electrochemical Research Institute), C. Suresh (CSIR- Central Electrochemical Research Institute), and C. Sivakumar (CSIR- Central Elctrochemical Research Institute)
08:20
10
Advanced RuO2/PEDOT Architecture for Flexible and Transparent Supercapacitors
C. Zhang (CRANN, School of Chemistry, Trinity College Dublin), T. Higgins (CRANN, School of Physics, Trinity College Dublin), J. N. Coleman (School of Physics and CRANN, Trinity College Dublin), and V. Nicolosi (CRANN, School of Chemistry, Trinity College Dublin)
08:40
11
Progress in Studying Mediator Supercapacitor
X. Zhou (University of Miami), J. Cai (Lawrence Berkeley National Laboratory), Y. Wang, C. Zhang, X. Qiao (University of Miami), and A. Mansour (Naval Surface Warfare Center, Carderock Division)
09:00
12
Supercapacitive Properties of Composite Electrode Consisting of Activated Carbon and Di(1-aminopyrene)Quinone
K. M. Kim (Electronics & Telecommunications Research Institute), C. S. Yoon (Hanbat.National Universty), J. H. Park, and J. M. Ko (Hanbat National University)
09:40
14
Understanding and Optimizing Aqueous Viologen Bromide Redox-Enhanced Electrochemical Capacitors
B. Evanko (University of California Santa Barbara), S. J. Yoo (University of California, Santa Barbara), S. E. Chun (University of Oregon), D. Vonlanthen (University of California Santa Barbara), X. Wang, X. Ji (Oregon State University), S. W. Boettcher (Department of Chemistry, University of Oregon), and G. Stucky (University of California, Santa Barbara)
10:00
15
High Energy Density Hybrid Pseudocapacitors
W. Xing (ADA Technologies, Inc.)
10:20
16
An Equivalent Circuit Model for Electrochemical Systems
H. Yamada and P. R. Bandaru (University of California, San Diego)
10:40
17
Partially Reduced Graphite Oxide: A Close Examination of the Contributions to Its Storage Capacity
A. M. Navarro-Suárez (CIC energiGUNE), J. Carretero-González (University of Cambridge), and T. Rojo (CIC energiGUNE, University of the Basque Country)
11:00
18
Marker Pen Lithography for Flexible and Curvilinear on-Chip Energy Storage
N. Kurra, Q. Jiang (King Abdullah University of Science & Technology), and H. Alshareef (King Abdullah University of Science and Technology)
11:20
19
Focused Ion Beam Reduced Graphene Oxide Micro-Supercapacitors with Unprecedented Energy and Power Densitites
P. Chakraborty Banerjee, D. L. Lobo (Monash University), C. Easton (CSIRO), and M. Majumder (Monash University)