Emerging Materials for Next Frontier Energy and Environment Applications, PDF eBook DRM Free

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This book focuses on photocatalysis in environment, electrode materials, and remediation hydrogen generation and storage.

Emerging Materials for Next Frontier Energy and Environment Applications
Eds. Alagarsamy Pandikumar, Mani Alagiri
Materials Research Foundations Vol. 170
Publication Date 2024, 118 174 Pages
Print ISBN 978-1-64490-328-5 (release date November 2024)
ePDF ISBN 978-1-64490-329-2
DOI: https://doi.org/10.21741/9781644903292

This book focuses on (1) photocatalysis in environment remediation, i.e. the removal of pollution or contaminants from water, (2) electrode materials for electrocatalytic hydrogen production and supercapacitors, and (3) hydrogen generation and storage. The electrocatalytic hydrogen evolution reaction turns out to be a very effective method for converting sustainable energy into a clean energy carrier.

Keywords
Supercapacitors for Energy Storage, Photocatalysis, Electrode Materials, Biomass Derived Carbon, MOF Electrode Material for Supercapacitors, Transition Metal Oxides, Transition Metal Chalcogenides

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Chapters


GO/rGO doped metal chalcogenide (CoSe, NiSe, and MnSe) nanocomposites for symmetric and asymmetric supercapacitors for energy storage applications
V. Ramesh, D.V. Sridevi, G. Bharath, G. Premanand, P. Umadevi, N. Naveenkumar, A. Abhishek


2D Materials (2DM) based photocatalyst for environmental remediation
R. Roshan Chandrapal, G. Bakiyaraj


Recent advances in the electrode materials for electrocatalytic hydrogen evolution reactions
Thirugnanam Bavani, Sakthivel Vinith Kumar, Jagannathan Madhavan


Role of biomass derived functionalized carbon as potential electrode materials for supercapacitor applications
S. Pavithra, K. Pramoda, A. Sakunthala, Rangappa S. Keri


Prospects of metal organic framework (MOF) as excellent electrode material for supercapacitors
Ariharaputhiran Anitha, Amalraj John


Transition metal oxides-MXene nanocomposite: The next frontier in supercapacitors
Jayachandran Madhavan, Pavithra Karthikesan, Harshini Sharan, Alagiri Mani


Synergistic effects in MXene: Transition metal chalcogenides to unlock supercapacitor potential
Harshini Sharan, Pavithra Karthikesan, Jayachandran Madhavan, Alagiri Mani