Biomass-Based Functional Carbon Nanostructures for Supercapacitors, 2023 Green Energy and Technology Series
Langue : Anglais
Coordonnateurs : Tiwari Santosh K., Bystrzejewski Michal, Kumar Vijay
This book presents a widespread description of the synthesis and characterization of biomass-based carbon nanostructures. It also covers the vital applications of these materials in supercapacitors and for next-generation energy storage devices. It describes the common design procedures, advantages and disadvantages of biomass-based carbon nanostructures and offers novel visions into the forthcoming directions. In addition, this book will provide new updates about the effect of doping and structural twist on the electrochemical performance of electrode materials derived from biomass sources. The book will be useful for beginners, researchers, and professionals working in the area of carbon nanomaterials and their applications in energy storage devices.
Biomass-Based Functional Carbon Nanostructures for Supercapacitors.- Methods for Production of Functional Carbon Nanostructures from Biomass.- Key Limitations of Biomass-derived Carbon Nanostructures for Energy Application.- Carbon Nanostructures with the Ultra-high Surface Area and Porosity Derived from Biomass.- Biomass-derived N and S Doped Carbon Nano-shapers for Supercapacitor Applications: Effect of Doping on Energy Density.- Carbon Nanotubes and Similar Nanostructures Derived from Biomass for Supercapacitors Application.- Amorphous Carbon with a Graphitic Pattern Derived from Biomass for Supercapacitor Applications.- Graphene and Graphene-like Materials Derived from Biomass for Supercapacitor Applications.- Metal Doped Nanostructures Derived from Biomass for Supercapacitor Applications: Effect of Doping on Cyclability.- Porous Hollow Biomass-based Carbon Nanostructures for High-Performance Supercapacitors.- Carbon Nanomaterials from Biomass for Solar Energy Conversion and Storage.- Recent Development in the Production and Utilization of Plant Biomass-based Nanomaterials.
Dr. Santosh K. Tiwari received his Ph.D. from IIT Dhanbad, India, in Graphene-based Polymer nanocomposites and then worked with HSCL, Hanyang University, Seoul, South Korea, for 1.5 years. In 2019 he joined the University of Guangxi, Nanning, China, as a research faculty and then moved to Poland where he got a prestigious NAWA research grant from Government of Poland and presently working as a scientist in the Department of Chemistry, University of Warsaw. He has published more than 55 research articles in reputed scientific journals and presented his works as an invited speaker in different countries. He has more than 1100 citations with an h-index of 18. To date, he has edited four books on graphene-based nanomaterials for Springer Nature. Dr. Tiwari got several awards and qualified for the top national exams organized in India for research and admission in PhDs including IIT Dhanbad Ph.D. entrance, NET, UGC/CSIR-JRF, and GATE organized by HRD.
Prof. Michał Bystrzejewski is a full professor in the Department of Chemistry, Warsaw University, Poland, and has a deep research interest in synthesis and characterizations of carbon nanomaterials, carbon capsules, magnetic nanoparticles, and separation based adsorption. He received his M.Sc and Ph.D. from the University of Warsaw, Poland, and postdoctoral training from Germany as a Marie Curie Fellow. He published more than 150 research articles related to nanomaterials and carbon nanostructures. He finished several research projects granted by the European Union and the government of Poland.
Dr. Vijay Kumar is presently working as Assistant Professor, Department of Physics, National Institute of Technology Srinagar (J&K), India. He received his Ph.D. in Physics at the beginning of 2013 from the SLIET Longowal. From 2013 to 2015, he was a postdoctoral research fellow in the Phosphor Research Group, Department of
Discusses about carbon nanostructures derived from biomass for supercapacitors applications Discusses about biomass and electrochemical energy Covers the synthesis and characterization of biomass-based carbon nanostructures
Date de parution : 04-2024
Ouvrage de 368 p.
15.5x23.5 cm
Date de parution : 04-2023
Ouvrage de 368 p.
15.5x23.5 cm
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