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Titlebook: Energy Materials and Devices; Proceedings of E-MAD Ambesh Dixit,Vijay K. Singh,Shahab Ahmad Conference proceedings 2024 The Editor(s) (if a

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書目名稱Energy Materials and Devices
副標題Proceedings of E-MAD
編輯Ambesh Dixit,Vijay K. Singh,Shahab Ahmad
視頻videohttp://file.papertrans.cn/311/310333/310333.mp4
概述Presents research works in the field of energy materials and devices.Provides original works presented at E-MAD 2022 held in Jodhpur, India.Serves as a reference for researchers and practitioners in a
叢書名稱Advances in Sustainability Science and Technology
圖書封面Titlebook: Energy Materials and Devices; Proceedings of E-MAD Ambesh Dixit,Vijay K. Singh,Shahab Ahmad Conference proceedings 2024 The Editor(s) (if a
描述This book is a collection of peer-reviewed best-selected research papers presented at the National Conference on Energy Materials and Devices (E-MAD 2022), organized by the Indian Institute of Technology Jodhpur, India, during 16–18 December 2022. The book focusses on the current state-of-the-art research and development in the field of lithium and beyond lithium-ion batteries as electrochemical energy storage devices for sustainable development to meet the energy storage needs. This includes the materials’ design using computational approaches together with experimental advances targeting the next-generation energy storage materials and devices such as photo rechargeable batteries. In addition, the proceedings also focus simultaneously on green hydrogen energy generation, storage, and integration in fuel cells. It includes the catalytically active nanoengineered materials for hydrogen generation, functionalized hydrides and their composites for enhanced hydrogen storage together withtheir possible integration in fuel cells for their direct energy generation applications.
出版日期Conference proceedings 2024
關(guān)鍵詞Photorechargeable batteries; Green hydrogen; Hydrogen storage; Fuel cell; Hydrogen vehicle; Energy storag
版次1
doihttps://doi.org/10.1007/978-981-99-9009-2
isbn_softcover978-981-99-9011-5
isbn_ebook978-981-99-9009-2Series ISSN 2662-6829 Series E-ISSN 2662-6837
issn_series 2662-6829
copyrightThe Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Singapor
The information of publication is updating

書目名稱Energy Materials and Devices影響因子(影響力)




書目名稱Energy Materials and Devices影響因子(影響力)學(xué)科排名




書目名稱Energy Materials and Devices網(wǎng)絡(luò)公開度




書目名稱Energy Materials and Devices網(wǎng)絡(luò)公開度學(xué)科排名




書目名稱Energy Materials and Devices被引頻次




書目名稱Energy Materials and Devices被引頻次學(xué)科排名




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書目名稱Energy Materials and Devices年度引用學(xué)科排名




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In-Situ X-Ray Diffraction Studies of Battery Electrode Materials for the Microscopic Understanding oclic instability, and even causing fire accidents in some cases. The in-situ XRD can be integrated to monitor such changes during charging/discharging cycling and thus, may provide a wealth of information to design and develop a robust electrode material for enhanced stability during charging/discha
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In-Situ Raman Characterization of Electrode Materials for Rechargeable Li/Na Ion Batterieslex processes involved in charge and discharge cycles. With an emphasis on the electrode materials for lithium-ion (Li-ion) and sodium-ion (Na-ion) batteries, this study provides an overview of in-situ Raman techniques for rechargeable batteries. We discuss how in-situ Raman spectroscopy can examine
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Experimental Study on Dead-Lithium Formation in Lithium-Ion Battery as well as evaluated with distribution?of relaxation time (DRT). The results reveal that during lithium formation at the anode surface, the resistance of the solid electrolyte interface (SEI) layer remains almost constant, but the series resistance significantly increases, indicating the conversion
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High-Performance Aqueous Asymmetric Supercapacitor Based on Hybrid Electrodestor exhibited excellent electrochemical properties delivering specific capacitance of 512 F/g at a current density of 3 A/g, low charge transfer resistance of 0.41 Ω with high power density of 4260 W/Kg corresponding to the energy density of 71 Wh/Kg.
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