In this edited volume, experts in thermal plasmonics and metamaterials technologies introduce cutting-edge energy and resource conservation techniques and environmentally friendly solutions in areas including energy generation and harvesting and radiative cooling.
In this edited volume, experts in thermal plasmonics and metamaterials technologies introduce cutting-edge energy and resource conservation techniques and environmentally friendly solutions in areas including energy generation and harvesting and radiative cooling.
Kotaro Kajikawa is a Professor in the Department of Electrical and Electronic Engineering at the Tokyo Institute of Technology. He obtained his Bachelor's, Master's, and Doctorate degrees from Tokyo Tech. Professor Kajikawa is a member of The Japanese Society of Applied Physics and serves on the editorial board of Scientific Reports. Junichi Takahara is a Professor of the Graduate School of Engineering at Osaka University, Japan. He gained his Bachelor's, Master's, and PhD all from Osaka University.
Inhaltsangabe
Chapter 1 Toward Thermal Photonics by Integrating Thermal Engineering and Photonics Atsushi Sakurai Chapter 2 Angular Selective Multiband Emission Based on Optical Resonances Coupled with a Leaky Mode Makoto Shimizu, Rihab Benlyas, and Hiroo Yugami Chapter 3 High Aspect Ratio Nanostructures for Photothermal Applications Osamu Takayama Chapter 4 Thermal High-Contrast Metamaterials Richard Z. Zhang and Ken Araki Chapter 5 Adaptive Thermal Radiation Control by Si/VO2 Metasurfaces Junichi Takahara Chapter 6 Metamaterial Thermoelectric Conversion Wakana Kubo Chapter 7 Thermal Emission Control Based on Photonic Nanostructures Toward High-Power High-Efficiency Thermophotovoltaic Power Generation Takuya Inoue, Takashi Asano, and Susumu Noda Chapter 8 Passive Radiative Cooling Applications for Thermal and Electrical Energy Harvesting Ross Y. M. Wong, Christopher Y. H. Chao, and Satoshi Ishii Chapter 9 Transparent Radiative Cooling Materials and Their Application to Energy Harvesting Kotaro Kajikawa Chapter 10 Metamaterials for High Efficiency Solar Desalination with Carbon Zero Emission Fei Xiang and Andrea Fratalocc hi Chapter 11 Tailoring Transmission and Emission for Photonic Thermoregulating Textiles Muluneh G. Abebe, Alice De Corte, and Bjorn Maes
Chapter 1 Toward Thermal Photonics by Integrating Thermal Engineering and Photonics Atsushi Sakurai Chapter 2 Angular Selective Multiband Emission Based on Optical Resonances Coupled with a Leaky Mode Makoto Shimizu, Rihab Benlyas, and Hiroo Yugami Chapter 3 High Aspect Ratio Nanostructures for Photothermal Applications Osamu Takayama Chapter 4 Thermal High-Contrast Metamaterials Richard Z. Zhang and Ken Araki Chapter 5 Adaptive Thermal Radiation Control by Si/VO2 Metasurfaces Junichi Takahara Chapter 6 Metamaterial Thermoelectric Conversion Wakana Kubo Chapter 7 Thermal Emission Control Based on Photonic Nanostructures Toward High-Power High-Efficiency Thermophotovoltaic Power Generation Takuya Inoue, Takashi Asano, and Susumu Noda Chapter 8 Passive Radiative Cooling Applications for Thermal and Electrical Energy Harvesting Ross Y. M. Wong, Christopher Y. H. Chao, and Satoshi Ishii Chapter 9 Transparent Radiative Cooling Materials and Their Application to Energy Harvesting Kotaro Kajikawa Chapter 10 Metamaterials for High Efficiency Solar Desalination with Carbon Zero Emission Fei Xiang and Andrea Fratalocc hi Chapter 11 Tailoring Transmission and Emission for Photonic Thermoregulating Textiles Muluneh G. Abebe, Alice De Corte, and Bjorn Maes
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