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Full Description
Biomass-Derived Carbon Materials for Energy Storage and Conversion Applications delves into this burgeoning field and addresses the pressing need for sustainable and cost-effective carbon sources. Highlighting biomass's unique advantages of cost-effectiveness, sustainability, and adjustable properties, it explores the various applications of carbon nanomaterials in energy storage and conversion. Divided into four parts, the book comprehensively examines biomass availability, synthetic protocols, structural engineering techniques, and characterization methods, offering insights into the design principles and applicability of these materials for supercapacitors, batteries, and electrocatalytic reactions. It serves as a useful reference for researchers, professionals, and academicians, and graduate/postgraduate students in the field.
Provides academic and industrial perspectives on cutting-edge topics like surface functionalization, hybridization, and integration into energy devices, emphasizing sustainability and scalability.
Examines the potential for biomass-derived carbon materials to enhance energy efficiency and reliability.
Discusses economic and environmental implications, including life cycle assessment (LCA), carbon neutrality, and circular economy principles, aligning material development with global sustainability goals.
Contents
Chapter 1 Introduction to Biomass-derived Carbon Materials
Kirti Bhardwaj, Aakriti Banjariya, Manisha Sharma and Sanjeev Kumar Sharma
Chapter 2 Recent advancements in the synthesis and characterization of biomass-derived carbon materials for electrochemical performances
Venkadeshkumar Ramara, Sivakumar Periyasamyb, Prabhu Sengodanc and Shihua Huanga
Chapter 3 Biomass-derived carbon/transition metal oxide composites as cathode materials for Aqueous Zn-ion Batteries and hybrid supercapacitors
Anjeline Williams, Aneesh Anand Nechikott and Prasant Kumar Nayak
Chapter 4 Heteroatom doped Biomass Derived Carbon and its Composites as Air Electrodes for Metal-Air Batteries
J. M. V. Nsanzimanaa, N. Durga Srib and T. Maiyalaganb
Chapter 5 Modification of biomass-derived carbon materials through heteroatom doping for energy storage applications
Radhakrishnan Sivakumar
Chapter 6 Biomass-derived carbon materials for water splitting
Mumtaz Alia, Xiangyu Caoa, In Choia and Min Jae Koa
Chapter 7 Biomass-derived Carbon-based Non-Platinum Catalysts for Oxygen Reduction Reaction in Fuel Cells
Snigdha Toms, E.Mary Allan Stafani, and Imran Jafri R
Chapter 8 Sustainable Biomass-derived Carbon Based Electrodes for Aluminium-ion Batteries
Thangavel Selvamania, Michael Ruby Raja, D.Gangadharanc, B. Neppolianb, and Gibaek Leea
Chapter 9 Biomass-based carbon materials in electrochemical reduction of carbon dioxide
Manisha Sharmaa, Kirti Bhardwaja, Anshika Guptaa,b, and Sanjeev Kumar Sharma
Chapter 10 Biomass-Derived Carbon Nanomaterials for High-Performance Secondary Metal-Ion Battery Anodes
Tanisha Mavjekar and T. Maiyalagan
Chapter 11 Biomass-derived carbon nanomaterials for Dye-Sensitised Solar Cells
A.Manjceevan and K.Velauthamurty
Chapter 12 Modification of Biomass-Derived Carbon Materials through Heteroatom Doping for Photochemical and Electrochemical Reduction of Carbon Dioxide
Takumi Nagasaka, Sredha J Nair and G. Keerthiga



