Molecular Technology
Energy Innovation
1st Edition
Published on 11. June 2018
XVIII, 314 pages
978-3-527-80279-1 (ISBN)
Description
Edited by foremost leaders in chemical research together with a number of distinguished international authors, this first of four volumes summarizes the most important and promising recent chemical developments in energy science all in one book.
Interdisciplinary and application-oriented, this ready reference focuses on chemical methods that deliver practical solutions for energy problems, covering new developments in advanced materials for energy conversion, semiconductors and much more besides.
Of great interest to chemists as well as researchers in the fields of energy science in academia and industry.
Interdisciplinary and application-oriented, this ready reference focuses on chemical methods that deliver practical solutions for energy problems, covering new developments in advanced materials for energy conversion, semiconductors and much more besides.
Of great interest to chemists as well as researchers in the fields of energy science in academia and industry.
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Wiley-VCH
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Persons
Hisashi Yamamoto is Professor at the University of Chicago. He received his Ph.D. from Harvard under the mentorship of Professor E. J. Corey. His first academic position was as Assistant Professor and lecturer at Kyoto University, and in 1977 he was appointed Associate Professor of Chemistry at the University of Hawaii. In 1980 he moved to Nagoya University where he became Professor in 1983. In 2002, he moved to United States as Professor at the University of Chicago. He has been honored to receive the Prelog Medal in 1993, the Chemical Society of Japan Award in 1995, the National Prize of Purple Medal (Japan) in 2002, Yamada Prize in 2004, and Tetrahedron Prize in 2006 and the ACS Award for Creative Work in Synthetic Organic Chemistry to name a few. He authored more than 500 papers, 130 reviews and books (h-index ~90).
Takashi Kato is a Professor at the Department of Chemistry and Biotechnology at the University of Tokyo since 2000. After his postdoctoral research at Cornell University, Department of Chemistry with Professor Jean M. J. Frechet, he joined the University of Tokyo. He is the recipient of The Chemical Society of Japan Award for Young Chemists (1993), The Wiley Polymer Science Award (Chemistry), the 17th IBM Japan Science Award (Chemistry), the 1st JSPS (Japan Society for the Promotion of Science) Prize and the Award of Japanese Liquid Crystal Society (2008). He is the editor in chief of the "Polymer Journal", and member of the editorial board of "New Journal of Chemistry".
Takashi Kato is a Professor at the Department of Chemistry and Biotechnology at the University of Tokyo since 2000. After his postdoctoral research at Cornell University, Department of Chemistry with Professor Jean M. J. Frechet, he joined the University of Tokyo. He is the recipient of The Chemical Society of Japan Award for Young Chemists (1993), The Wiley Polymer Science Award (Chemistry), the 17th IBM Japan Science Award (Chemistry), the 1st JSPS (Japan Society for the Promotion of Science) Prize and the Award of Japanese Liquid Crystal Society (2008). He is the editor in chief of the "Polymer Journal", and member of the editorial board of "New Journal of Chemistry".
Content
Foreword by Dr Hamaguchi
Foreword by Dr Noyori
Preface
Charge Transport Simulations for Organic Semiconductors
Liquid-Phase Interfacial Synthesis of Highly Oriented Crystalline Molecular Nanosheets
Molecular Technology for Organic Semiconductors Toward Printed and Flexible Electronics
Design of Multiproton-Responsive Metal Complexes as Molecular Technology for Transformation of Small Molecules
Photo-Control of Molecular Alignment for Photonic and Mechanical Applications
Molecular Technology for Chirality Control: From Structure to Circular Polarization
Molecular Technology of Excited Triplet State
Material Transfer and Spontaneous Motion in Mesoscopic Scale with Molecular Technology
Molecular Technologies for Photocatalytic CO2 Reduction
Molecular Design of Photocathode Materials for Hydrogen Evolution and Carbon Dioxide Reduction
Molecular Design of Glucose Biofuel Cell Electrodes
Index
Foreword by Dr Noyori
Preface
Charge Transport Simulations for Organic Semiconductors
Liquid-Phase Interfacial Synthesis of Highly Oriented Crystalline Molecular Nanosheets
Molecular Technology for Organic Semiconductors Toward Printed and Flexible Electronics
Design of Multiproton-Responsive Metal Complexes as Molecular Technology for Transformation of Small Molecules
Photo-Control of Molecular Alignment for Photonic and Mechanical Applications
Molecular Technology for Chirality Control: From Structure to Circular Polarization
Molecular Technology of Excited Triplet State
Material Transfer and Spontaneous Motion in Mesoscopic Scale with Molecular Technology
Molecular Technologies for Photocatalytic CO2 Reduction
Molecular Design of Photocathode Materials for Hydrogen Evolution and Carbon Dioxide Reduction
Molecular Design of Glucose Biofuel Cell Electrodes
Index
