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B01=Qian Wang
B01=Srabanti Ghosh
Category1=Non-Fiction
Category=PNRL
Category=THRH
Category=THX
COP=United Kingdom
Delivery_Delivery within 10-20 working days
Language_English
PA=Available
Price_€100 and above
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Recent Developments in Functional Materials for Artificial Photosynthesis

English

Artificial photosynthesis is the process of converting solar energy into useful fuels and represents a significant achievement in the production of clean energy for the planet. In the process, energy is generated from water and CO2 reduction using solar-powered photocatalysis. This book provides a comprehensive overview of recently developed, multifunctional materials as visible light-driven catalysts, their mechanisms and applications in solar energy utilisation and conversion. Chapters highlight the use of different approaches such as molecular catalysis, nanomaterials systems, as well as thin-films for solar-driven evolution of renewable fuels, such as hydrogen. This is the first book to give an overview of this area, with chapters specifically interesting for those looking towards industrial applications. With in-depth discussions ranging from understanding, to engineering of materials and applied devices, it will be suitable for industry professionals, researchers and students interested in understanding of the current state of photocatalysis research and its possible applications in the energy domain.

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Current price €183.34
Original price €192.99
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Age Group_Uncategorizedautomatic-updateB01=Qian WangB01=Srabanti GhoshCategory1=Non-FictionCategory=PNRLCategory=THRHCategory=THXCOP=United KingdomDelivery_Delivery within 10-20 working daysLanguage_EnglishPA=AvailablePrice_€100 and abovePS=Activesoftlaunch
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Product Details
  • Weight: 1568g
  • Dimensions: 156 x 234mm
  • Publication Date: 08 Mar 2023
  • Publisher: Royal Society of Chemistry
  • Publication City/Country: United Kingdom
  • Language: English
  • ISBN13: 9781839164422

About

Dr. Srabanti Ghosh presently working as Senior Scientist Energy Materials & Devices Division in CSIR - Central Glass and Ceramic Research Institute Kolkata India. She received her PhD degree in Chemistry from UGC-DAE Consortium for Scientific Research Kolkata Centre and Jadavpur University India and completed postdoctoral programs at the University of Paris SUD France (Marie Curie Cofund). She worked as GOT ENERGY TALENT Cofund Marie Curie Fellow Researcher in UNIVERSIDAD DE ALCALA Spain. Her main research interests include synthesis characterization of functional materials at nanoscale and their photoelectrochemical properties for energy conversion devices photocatalysts electrocatalysts fuel cells and biosensors applications.  She co-authored 80 publications in international scientific journals 2 patent edited 4 books and contributed 19 book chapters covering the large fields of photocatalysis conjugated polymer heterostructure nanomaterials and water treatment. She routinely acts as a reviewer of SCI Journals from different editorials (RSC ACS ELSEVIER Wiley Springer Nature MDPI among others). Her current research work is focused on nanohybrid materials conducting polymer nanostructures for solar light harvesting photocatalysis applications. Qian Wang is currently an Associate Professor at Nagoya University Japan. She obtained her Ph.D. in 2014 at the University of Tokyo Japan where she worked on the development of perovskite-type oxide photocatalysts for visible-light-driven water splitting. She then worked as a postdoctoral researcher at the Japan Technological Research Association of Artificial Photosynthetic Chemical Processes (ARPChem) on the development of standalone photocatalyst devices for overall water splitting. In 2018 she became a Marie Sklodowska-Curie Research Fellow at the University of Cambridge to develop inorganic-organic hybrid photocatalysts. She joined Nagoya University as an Associate Professor in May 2021 and established her research group which is currently developing new materials approaches and technologies for solar energy storage in the form of renewable fuels via artificial photosynthesis.

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