Reprint

Novel Nanomaterials for Energy Storage and Catalysis

Edited by
April 2024
192 pages
  • ISBN978-3-7258-0766-6 (Hardback)
  • ISBN978-3-7258-0765-9 (PDF)

This is a Reprint of the Special Issue Novel Nanomaterials for Energy Storage and Catalysis that was published in

Chemistry & Materials Science
Engineering
Physical Sciences
Summary

This reprint delves into the cutting-edge developments and applications of nanomaterials in energy storage and catalysis. The journey through this reprint begins with an exploration of advanced nanomaterials designed for energy storage applications, including batteries, supercapacitors and fuel cells. It delves into the fundamental principles governing their design, synthesis, characterization and performance optimization, highlighting key breakthroughs and emerging trends.

Transitioning into catalysis, the reprint showcases the pivotal role of nanomaterials in catalytic processes for energy conversion, environmental remediation and sustainable chemical engineering. Readers gain valuable insights into design strategies, catalytic mechanisms and performance enhancements enabled by nanomaterial-based catalysts, showcasing their potential to revolutionize diverse sectors.

Throughout this reprint, an emphasis is placed on the interdisciplinary nature of nanomaterial research, highlighting the synergistic integration of materials science, chemistry, physics, engineering and environmental science. Moreover, it underscores the importance of collaboration, knowledge exchange and continuous innovation in driving impactful solutions for global energy and environmental challenges.

 

Format
  • Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
bamboo charcoal; methylene blue; adsorption; degradation; kinetics; CO2-switchable; hierarchically porous zirconium-based MOF; Pickering emulsion; mini-reactor; Knoevenagel condensation; TiO2 nanorods; polyethylene; ceramic separator; lithium ion batteries; thermal stability; heterogeneous catalysis; POP-Ni catalyst; carbon dioxide fixation; green chemistry; catalytic material; graphite; molybdenum disulfide; fast charging; high rate capability; hydrothermal synthesis; lithium-ion battery; anode materials; ion-selective electrode; potentiometry; anion ionophore; solid contact; carbon paste ion-selective electrode; n/a; lithium-ion battery; anode material; organic anode; metal–organic compound; humic acid; Fe chelate; electrochemical impedance spectroscopy; energy density; hybrid supercapacitor; nickel-chromium-sulfide (Ni-Cr-S); specific surface area; co-modified; CdS-C60/TiO2; photocatalytic activity; hydrogen evolution; ionic liquid; organic dye degradation; tungsten oxide; photoelectrocatalysis; water splitting

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