Light-Active Functional Organic Materials
Herausgeber: Yamada, Hiroko; Yagai, Shiki
Light-Active Functional Organic Materials
Herausgeber: Yamada, Hiroko; Yagai, Shiki
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This book focuses on functional organic materials wherein interplay between light and organic molecules has an important role. It covers cutting-edge organic optoelectronic materials that can be applied to photovoltaics, artificial photosynthesis, and light-emitting devices.
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This book focuses on functional organic materials wherein interplay between light and organic molecules has an important role. It covers cutting-edge organic optoelectronic materials that can be applied to photovoltaics, artificial photosynthesis, and light-emitting devices.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 236
- Erscheinungstermin: 16. Mai 2019
- Englisch
- Abmessung: 231mm x 157mm x 18mm
- Gewicht: 522g
- ISBN-13: 9789814800150
- ISBN-10: 9814800155
- Artikelnr.: 57012206
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 236
- Erscheinungstermin: 16. Mai 2019
- Englisch
- Abmessung: 231mm x 157mm x 18mm
- Gewicht: 522g
- ISBN-13: 9789814800150
- ISBN-10: 9814800155
- Artikelnr.: 57012206
Hiroko Yamada is full professor at Nara Institute of Science and Technology (NAIST), Japan. She received her PhD from Kyoto University, Japan, in 1992. She joined Ehime University, Japan, as associate professor in 2003 after working in Ciba-Geigy Japan Ltd. and as a postdoc in Osaka University, Japan. She moved to NAIST in 2011 and was promoted to the rank of full professor in 2012. Prof. Yamada was also a PRESTO researcher of JST during 2006¿2009 and has received the Japanese Photochemistry Association Award (2012) and the Chemical Society of Japan Award for Creative Work (2018). Her research areas are organic chemistry, organic photochemistry, and organic electrochemistry. Shiki Yagai is full professor at Chiba University, Japan. He received his PhD from Ritsumeikan University, Japan, in 2002. He joined Chiba University as assistant professor soon after and subsequently became an associate professor in 2010. He was promoted to the rank of full professor in 2017. Prof. Yagai was a PRESTO researcher of JST during 2006¿2009 and was awarded the Chemical Society of Japan Award for Young Chemists (2010), Young Scientist Commendation for Science and Technology from the Minister of Education, Culture, Sports, Science and Technology (2011), and Swiss Chemical Society Lectureships (2017). His current research focuses on supramolecular functional materials.
1. Soft Materials: Ultra-Flexible, Fluidic, Optoelectronically-Active Molecular/Polymeric Materials 2. Rigid
Flexible Hybrid Design for Photofunctional Molecules and Materials 3. Optical Microresonators from
-Conjugated Polymers 4. Hydrogen-Bond-Directed Nanostructurization of Oligothiophene Semiconductors for Organic Photovoltaics 5. Fundamental Optoelectronic Process in Polymer
Fullerene Heterojunctions 6. Hard Materials: Near-Infrared Dyes Based on Ring-Expanded Porphyrins with No Meso-Bridges 7. Gold Isocyanide Complexes Exhibiting Luminescent Mechanochromism and Phase Transitions 8. Thermally Activated Delayed Fluorescence (TADF) Materials for Organic Light-Emitting Devices 9.
-Diketone-Type Precursors of Acenes for Solution-Processed Organic Solar Cells 10. Photochemical Synthesis of Phenacenes and Their Application to Organic Semiconductors
Flexible Hybrid Design for Photofunctional Molecules and Materials 3. Optical Microresonators from
-Conjugated Polymers 4. Hydrogen-Bond-Directed Nanostructurization of Oligothiophene Semiconductors for Organic Photovoltaics 5. Fundamental Optoelectronic Process in Polymer
Fullerene Heterojunctions 6. Hard Materials: Near-Infrared Dyes Based on Ring-Expanded Porphyrins with No Meso-Bridges 7. Gold Isocyanide Complexes Exhibiting Luminescent Mechanochromism and Phase Transitions 8. Thermally Activated Delayed Fluorescence (TADF) Materials for Organic Light-Emitting Devices 9.
-Diketone-Type Precursors of Acenes for Solution-Processed Organic Solar Cells 10. Photochemical Synthesis of Phenacenes and Their Application to Organic Semiconductors
1. Soft Materials: Ultra-Flexible, Fluidic, Optoelectronically-Active Molecular/Polymeric Materials 2. Rigid
Flexible Hybrid Design for Photofunctional Molecules and Materials 3. Optical Microresonators from
-Conjugated Polymers 4. Hydrogen-Bond-Directed Nanostructurization of Oligothiophene Semiconductors for Organic Photovoltaics 5. Fundamental Optoelectronic Process in Polymer
Fullerene Heterojunctions 6. Hard Materials: Near-Infrared Dyes Based on Ring-Expanded Porphyrins with No Meso-Bridges 7. Gold Isocyanide Complexes Exhibiting Luminescent Mechanochromism and Phase Transitions 8. Thermally Activated Delayed Fluorescence (TADF) Materials for Organic Light-Emitting Devices 9.
-Diketone-Type Precursors of Acenes for Solution-Processed Organic Solar Cells 10. Photochemical Synthesis of Phenacenes and Their Application to Organic Semiconductors
Flexible Hybrid Design for Photofunctional Molecules and Materials 3. Optical Microresonators from
-Conjugated Polymers 4. Hydrogen-Bond-Directed Nanostructurization of Oligothiophene Semiconductors for Organic Photovoltaics 5. Fundamental Optoelectronic Process in Polymer
Fullerene Heterojunctions 6. Hard Materials: Near-Infrared Dyes Based on Ring-Expanded Porphyrins with No Meso-Bridges 7. Gold Isocyanide Complexes Exhibiting Luminescent Mechanochromism and Phase Transitions 8. Thermally Activated Delayed Fluorescence (TADF) Materials for Organic Light-Emitting Devices 9.
-Diketone-Type Precursors of Acenes for Solution-Processed Organic Solar Cells 10. Photochemical Synthesis of Phenacenes and Their Application to Organic Semiconductors