Materials for Sustainable Energy Storage at the Nanoscale

Materials for Sustainable Energy Storage at the Nanoscale

Nwanya, Assumpta C; Ezema, Fabian Ifeanyichukwu; Anusuya, M

Taylor & Francis Ltd

12/2024

484

Mole

9781032410043

Pré-lançamento - envio 15 a 20 dias após a sua edição

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Chapter 1 Prediction and Optimization of Inter-Pulse Tungsten Inert Gas (IP-TIG) Arc Welding Process Parameters to Attain Minimum Fusion Zone Area in Ti-6Al-4V Alloy Sheets Used in Energy Storage Devices.

Chapter 2 Structural and Morphological analysis of Drying Kinetics of Photovoltaic Thermal (PV - T) Hybrid Solar Dryer for drying of Sweet Potato Slices

Chapter 3 Armchair Carbon Nanotube Magnetoflexo Thermoelastic Mass Sensor with Non-Linear Vibration on an Elastic Substrate

Chapter 4 Atomic Layer Deposition (ALD) Utilities in Bioenergy Conversion and Energy Storage

Chapter 5 Manufacturing of Buckypaper Composites for energy storage applications - A review

Chapter 6 Synthesis of Graphene/Copper oxide nano composites for super capacitor applications

Chapter 7 Nano Carbon Materials Based Solar cells

Chapter 8 Bio-derived Nanomaterials for Energy Storage

Chapter 9 A Conceptual Approach to analyze the behavior of nano materials for hydrogen storage

Chapter 10 Investigation of Nano Materials - An Energy Storage and Conversion Devices

Chapter 11 Nano materials for Supercapacitors

Chapter 12 Aspects of Nanotechnology applied in the energy sector: A Review

Chaper 13 Synthesis of Graphene-based Nanomaterials from Biomass for Energy Storage

Chapter 14 Distributed Optical Fiber Sensing System for Leakage Detection in Underground Energy Storage Pipelines Using Machine Learning Techniques

Chapter 15 Influence of Nano materials on the Ionic Conductivity and Thermal Properties of Polymer Electrolytes for Li+ ion Battery Application

Chapter 16 Prospective Materials for Potential Applications in Energy Storage Devices

Chapter 17 Food waste mixed with carbon nanotechnology for energy storage

Chapter 18 A Facile Microwave Assisted Synthesis of Nanoparticles in Aspect of Energy Storage Applications

Chapter 19 A Critical Review on Role of Nanoparticles in Bioenergy Production

Chapter 20 Copper oxide nanoparticles for Energy Storage Applications

Chapter 21 Enhanced thermal energy effectiveness in storage, conversion, and heat transfer utilizing Graphene-Based Devices

Chapter 22 Nanomaterials in Energy Storage - Groundbreaking Developments

Chapter 23 Prospects of Graphene and Mxene in Flexbile Electronics and Energy Storage Systems - A Review

Chapter 24 Pan Based Composite Gel Electrolyte For Lithium Ion Batteries

Chapter 25 High Gain Modified LUO Converter for Nano Capacitor Charging

Chapter 26 Nanotechnology in Solar Energy

Chapter 27 Nano-composites for Energy Storage

Chapter 28 Development of Environmental Benign Nanomaterials for Energy and Environmental Applications

Chapter 29 ZnS nanoparticles for High Performance Supercapacitors

Chapter 30 Cost Effective Mediated Fabrication of ZnO Nanomaterials and its Multifaceted Perpsective Towards Energy Storage and Environmental Applications

Chapter 31 Nanotechnology for Sustainable Energy Storage Devices in Medical applications

Chapter 32 Nano technology in Batteries for Hybrid Renewable Energy Storage Systems

Chapter 33 Biocompatible Nano-Electromechanical System based Cantilever - An Overview

Chapter 34 Eco-friendly for Sustainable Nanomaterials for Renewable Energy Storage

Chapter 35 Nanomaterials in Solar Energy Applications

Chapter 36 Carbon Nanomaterials for Energy Storage

Chapter 37 Green Energy Storage Devices Using Nanocellulose

Chapter 38 Synthesis of Graphene Nanomaterials for Energy Storage Applications

Chapter 39 Electrical Energy Storage Analysis of Li4Ti2O6 Nanomaterials by Sol-gel method
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supercapacitors;lithion ion battery (LIBs);fuel cells;solar cells;photo catalysis;renewable energy;solar energy;Energy Storage;LIBs;Energy Storage Devices;Energy Density;Energy Sources;SEM;Gro;Electric Vehicles;Nanostructured Materials;Nanomaterials;Carbon Nanotubes;Carbon Nanomaterials;Energy Storage Systems;DSSC;Double Layer Electric Capacitive;Energy Conversion;Thermal Energy Storage;Metal Oxide Nanoparticles;Conductive Polymers;Transition Metal Oxides;Electrochemical Capacitors;Quantum Dots;Moisture Content