IS1

RATIONAL MOLECULAR DESIGN FOR EFFICIENT SOLAR ENERGY CONVERSION Hiroshi Imahori, Kyoto University, Japan

IS2

A POROUS UPCONVERSION MATERIAL FOR TRANSFERRING NEAR-INFRARED ENERGY TO CHLOROPHYLLS Jimmy Yu, Chinese University of Hong Kong, China

S1-1

STRUCTURE CONTROL OF ORGANIZED MESOPOROUS TIO2 FILMS TEMPLATED BY GRAFT COPOLYMERS Jong Hak Kim, Yonsei University, Korea

S2-1

PRINCIPLE AND DESIGN OF SEMICONDUCTOR PHOTOCATALYSTS: WHAT ARE TITANIA PHOTOCATALYSTS AND HOW THEY WORK? Bunsho Ohtani, Hokkaido University, Japan

S1-2

A COMPARISON OF ZNO AND TIO2 AS ELECTRON CONDUCTORS FOR SEMICONDUCTOR-SENSITIZED NANOPOROUS SOLAR CELLS Gary Hodes, Weizmann Institute of Science, Israel

S2-2

IN-SITU EPR STUDIES OF N-DOPED TIO2 PHOTOCATALYSTS Alexander Kokorin, Institute of Chemical Physics RAS, Russia

S1-3

TRANSPARENT TIO2 NANOTUBE-BASED DYE-SENSITIZED SOLAR CELLS
Jin Young Kim, National Renewable Energy Laboratory, U.S.A

S2-3

S1-4

IMPROVEMENT IN THE PERFORMANCE OF DYE-SENSITIZED SOLAR CELLS USING ZNO ELECTRODES WITH VARIOUS STRUCTURES BY NIOBIUM OXIDE COATING
Shintaro Ueno, Keio University, Japan

S2-4

COMPETITIVE PHOTOINDUCED OXIDATION REACTIONS ON WELL-DEFINED SINGLE CRYSTAL(RUTILE)TIO2 SURFACES STUDIED BY PL EMISSION Akihito Imanishi, Osaka University, Japan

S1-5

PRECISELY DIMENSION-CONTROLLED TITANIA NANOTUBES FOR EFFICIENT DYE-SENSITIZED SOLAR CELLS Hyunjun Yoo, Kookmin University, Korea

S2-5

EFFECT OF ZINC OXIDE NANOSTRUCTURED THIN FILM MORPHOLOGIES ON THE PHOTOCATALYTIC AQUEOUS ORGANIC OXIDATION REACTION MECHANISM AT DIFFERENT ULTRA VIOLET WAVELENGTHS. Arshid Ali, University of Auckland, New Zealand

Coffee Break 16:15~16:30

S3-1

SYNTHESIS AND PHOTOVOLTAIC PROPERTIES OF PORPHYRIN-FURAN AND -THIOPHENE ALTERNATING COPOLYMERS Tomokazu Umeyama, Kyoto University, Japan

S4-1

BISMUTH- CONTAINING OXIDES FOR PHOTOCATALYSIS AND WATER SPLITTING Yaron Paz, Technion, Israel

S3-2

PRODUCTION TECHNOLOGIES FOR FLEXIBLE OPV Thomas Kolbusch, Coatema Coating Machinery GmbH, Germany

S4-2

ANATASE TIO2 WITH A LARGE PERCENTAGE OF {001} FACETS FOR ENVIRONMENT AND ENERGY APPLICATIONS Huagui Yang, East China University of Science and Technology, China

S3-3

QUASI-SOLID DYE-SENSITIZED SOLAR CELLS WITH ULTRA FINE NANO-CLAY ELECTROLYTE Satoshi Uchida, The University of Tokyo, Japan

S4-3

VISIBLE-LIGHT-INDUCED SELECTIVE CO2 REDUCTION UTILIZING A RU-COMPLEX ELECTROCATALYST LINKED WITH A P-TYPE N-DOPED TA2O5 SEMICONDUCTOR Takeshi Morikawa, Toyota Central R&D Labs., Inc., Japan

S3-4

HIGHLY EFFICIENT SOLID STATE DYE-SENSITIZED SOLAR CELLS Neil Pschirer, BASF SE, Germany

S4-4

CO2 PHOTOREDUCTION IN THE PRESENCE OF MODIFIED TIO2 Adriana Zaleska, Gdansk University of Technology, Poland

S3-5

INFLUENCE OF GEL ELECTROLYTES AND SEAL MATERIALS ON DSC DURABILITY Nancy Jiang, Dyesol Ltd, Australia

S4-5

MODIFIED TIO2 PHOTOCATALYSTS FOR NOX REMEDIATION Qingping Wu, Delft University of Technology, Netherlands

Poster Session 18:00~19:00