Ceramic and Specialty Electrolytes for Energy Storage Devices
Editat de Prasanth Raghavan, Jabeen Fatimaen Limba Engleză Hardback – 5 apr 2021
Features:
• Offers a detailed outlook on the performance requirements and ion transportation mechanism in solid polymer electrolytes
• Covers solid-state electrolytes based on oxides (perovskite, anti-perovskite) and sulfide-type ion conductor electrolytes for lithium-ion batteries followed by solid-state electrolytes based on NASICON and garnet-type ionic conductors
• Discusses electrolytes employed for high-temperature lithium-ion batteries, low-temperature lithium-ion batteries, and magnesium-ion batteries
• Describes sodium-ion batteries, transparent electrolytes for energy storage devices, non-platinum-based cathode electrocatalyst for direct methanol fuel cells, non-platinum-based anode electrocatalyst for direct methanol fuel cells, and ionic liquid-based electrolytes for supercapacitor applications
• Suitable for readers with experience in batteries as well as newcomers to the field
This book will be invaluable to researchers and engineers working on the development of next-generation energy storage devices, including materials and chemical engineers, as well as those involved in related disciplines.
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Specificații
ISBN-13: 9780367701444
ISBN-10: 0367701448
Pagini: 333
Ilustrații: 20 Tables, black and white; 96 Illustrations, black and white
Dimensiuni: 156 x 234 x 26 mm
Greutate: 0.61 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
ISBN-10: 0367701448
Pagini: 333
Ilustrații: 20 Tables, black and white; 96 Illustrations, black and white
Dimensiuni: 156 x 234 x 26 mm
Greutate: 0.61 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Cuprins
1. Solid State Electrolytes for Lithium Ion Batteries: Performance Requirements and Ion Transportation Mechanism in Solid Polymer Electrolytes. 2. Solid State Electrolytes for Lithium Ion Batteries: Novel Lithium Ion Conducting Ceramic Materials: Oxides (Perovskite, Anti-Perovskite) and Sulfide Type Ion Conductors. 3. Solid State Electrolytes for Lithium Ion Batteries: Novel Lithium Ion Conducting Ceramic Materials: NASICON and Garnet type Ionic Conductors. 4. Polymer and Ceramic based Quasi Solid Electrolytes for High Temperature Rechargeable Energy Storage Devices. 5. Quasi Solid State Electrolytes for Lithium-Ion Batteries. 6. Electrolytes for High Temperature Lithium Ion Batteries: Electric Vehicles and Heavy Duty Applications. 7. Electrolytes for Low Temperature Lithium Ion Batteries Operating in Freeze Cold Weather. 8. Electrolytes for Magnesium Ion Batteries-the Next Generation Energy Storage Solution for Powering the Electric Vehicles. 9. Aqueous Electrolytes for Lithium and Sodium Ion Batteries. 10. Transparent Electrolytes: A Promising Pathway for Transparent Energy Storage Devices in Next Generation Optoelectronics. 11. Recent Advances in Non-Platinum Based Cathode Electrocatalysts for Direct Methanol Fuel Cells. 12. Platinum (Pt) Free Anode Electrocatalysts for Methanol Oxidation in Direct Methanol Fuel Cells. 13. Ionic Liquid based Electrolytes for Supercapacitor Applications
Notă biografică
Dr. Prasanth Raghavan, Professor, at Department of Polymer Science and Rubber Technology, Cochin University of Science and Technology (CUSAT), and Visiting Professor at Department of Materials Engineering and Convergence Technology, Gyeongsang National University, Republic of Korea. He received his PhD in Engineering under the guidance of Prof. Jou-Hyeon Ahn, from Department of Chemical and Biological Engineering, Geyongsang National University, Republic of Korea, in 2009, under prestigious Brain Korea (BK21) Fellowship. He completed his B.Tech and M.Tech from CUSAT, India. After a couple of years of attachment stint as Project Scientist at Indian Institute of Technology (IIT-D), New Delhi, he moved to abroad for his PhD studies in 2007. His PhD research was focused on fabrication and investigation of nanoscale fibrous electrolytes for high performance energy storage devices. He completed his Engineering doctoral degree in less than three years and still it’s an unbroken record in Republic of Korea. After the PhD, Dr. Prasanth joined as Research Scientist at Nanyang Technological University (NTU), Singapore in collaboration with Energy Research Institute at NTU (ERI@N) and TUM CREATE, a joint electromobility research centre between Germany's Technische Universität München (TUM) and NTU, where he was working with Prof. Rachid Yazami, the one who has successfully introduced graphitic carbon as anode for commercial lithium ion batteries, and received Draper Prize along with the Nobel Laurates Prof. J. B. Goodenough and Prof. Akira Yoshino. After four years in Singapore, Dr. Prasanth moved to Rice University, USA as Research Scientist where he was working with Prof. Pulickal M Ajayan, the co-inventor of Carbon Nanotubes, and lucky to work with 2019 Chemistry Nobel laurate Prof. J. B. Goodenough. Dr. Prasanth was selected for Brain Korea Fellowship (2007), SAGE Research Foundation Fellowship, Brazil (2009), Estonian Science Foundation Fellowship, European Science Foundation Fellowship (2010), Faculty Recharge, UGC (2015) etc. He received many international awards including Young Scientist award, Korean Electrochemical Society (2009), selected for Bharat Vikas Yuva Ratna Award, (2016) etc. He developed many products such as high performance breaking parachute, flex wheels for space shuttles, high performance lithium ion batteries for leading portable electronic device and automobile industries etc. He has a general research interest in polymer synthesis and processing, nanomaterials, green/nanocomposites, and electrospinning. His current research focused on nanoscale materials and polymer composites for printed and light weight charge storage solutions including high temperature supercapacitors and batteries. He have published a good number of research papers and book/book chapters in high impact factor journals and have more than 5000 citation and h-index of 45 plus. Apart from science and technology, Dr. Prasanth is a poet, activist and a columnist in online portals and printed media.
Dr. Jabeen Fatima M. J is a research scientist at Materials Science and NanoEngineering Lab (MSNE Lab), Department of Polymer Science and Rubber Technology (PSRT), Cochin University of Science and Technology (CUSAT), India. Before joining MSNE Lab, she was working as a tentative Assistant Professor at Department of NanoScience and Technology, University of Calicut, India. She received her Ph.D in Nanoscience and Technology from University of Calicut in 2016, India, with prestigious National Fellowship JRF/SRF from Council of Scientific and Industrial Research (CSIR), under Ministry of Science and Technology, Government of India. Her research area was focused on synthesis of nanostructures for photoelectrodes for photovoltaic applications, energy storage devices, photoelectrochemical water splitting, catalysis etc. She received her MS degree in Applied Chemistry (University First Rank) after receiving her B.Sc degree in Chemistry from Mahatma Gandhi University (MGU), Kottayam, India. She received many prestigious fellowships like Junior/Senior Research fellowship (JRF/SRF) from Centre for Science and Research, Department of Science and Technology, Ministry of India, Post-doctoral/research scientist fellowship from Kerala State Council for Science, Technology and Environment (KSCSTE), InSc research excellence award, etc. She has published a good number of full length research articles in peer reviewed international journals and book chapters with international publishers. She is serving as reviewer for many STM journals publishing by Wiley International, Elsevier, Springer Nature etc. Her current area of interest includes the development of flexible and free standing electrodes for printable and stretchable energy storage solutions and development of novel nanostructured materials and ternary composite electrodes and electrolytes for sustainable energy applications like super capacitors, fuel cells and lithium ion batteries.
Dr. Jabeen Fatima M. J is a research scientist at Materials Science and NanoEngineering Lab (MSNE Lab), Department of Polymer Science and Rubber Technology (PSRT), Cochin University of Science and Technology (CUSAT), India. Before joining MSNE Lab, she was working as a tentative Assistant Professor at Department of NanoScience and Technology, University of Calicut, India. She received her Ph.D in Nanoscience and Technology from University of Calicut in 2016, India, with prestigious National Fellowship JRF/SRF from Council of Scientific and Industrial Research (CSIR), under Ministry of Science and Technology, Government of India. Her research area was focused on synthesis of nanostructures for photoelectrodes for photovoltaic applications, energy storage devices, photoelectrochemical water splitting, catalysis etc. She received her MS degree in Applied Chemistry (University First Rank) after receiving her B.Sc degree in Chemistry from Mahatma Gandhi University (MGU), Kottayam, India. She received many prestigious fellowships like Junior/Senior Research fellowship (JRF/SRF) from Centre for Science and Research, Department of Science and Technology, Ministry of India, Post-doctoral/research scientist fellowship from Kerala State Council for Science, Technology and Environment (KSCSTE), InSc research excellence award, etc. She has published a good number of full length research articles in peer reviewed international journals and book chapters with international publishers. She is serving as reviewer for many STM journals publishing by Wiley International, Elsevier, Springer Nature etc. Her current area of interest includes the development of flexible and free standing electrodes for printable and stretchable energy storage solutions and development of novel nanostructured materials and ternary composite electrodes and electrolytes for sustainable energy applications like super capacitors, fuel cells and lithium ion batteries.
Descriere
Ceramic and Specialty Electrolytes for Energy Storage Devices investigates recent progress and challenges in a wide range of ceramic solid and quasi-solid electrolytes and specialty electrolytes for energy storage devices.