Skip to product information
1 of 1
Regular price £131.99 GBP
Regular price £157.00 GBP Sale price £131.99 GBP
Sale Sold out
Free UK Shipping

Freshly Printed - allow 10 days lead

2D Nanomaterials for Energy Applications
Graphene and Beyond

Provides a comprehensive overview of the major applications of two-dimensional materials for energy conversion and storage technologies

Spyridon Zafeiratos (Edited by)

9780128167236

Paperback, published 22 November 2019

352 pages
23.4 x 19 x 2.3 cm, 0.68 kg

2D Nanomaterials for Energy Applications: Graphene and Beyond discusses the current state-of-the art of 2D nanomaterials used in energy-related applications. Sections cover nanogenerators, hydrogen storage and theoretical design. Each chapter focuses on a different energy application, thus allowing readers to gain a greater understanding of the most promising 2D materials in the field. The book's ultimate goal lies in describing how each energy technology is beneficial, hence it provides a valuable reference source for materials scientists and engineers.

The physical and chemical properties of 2D materials can be effectively tuned through different strategies, such as controlling dimensions, the crystallographic structure and defects, or doping with heteroatoms. This flexibility facilitates the design of 2D materials for dedicated applications in the field of energy conversion and storage.

1. Piezoelectricity of 2D materials and its applications toward mechanical energy harvesting
2. Two-dimensional metal oxide nanomaterials for sustainable energy applications
3. Graphene-based hybrid materials for advanced batteries
4. 2D materials as the basis of supercapacitor devices
5. Organometallic hybrid perovskites for humidity and gas sensing applications
6. Vacancy formation in 2D and 3D oxides
7. 2D materials for smart energochromic sunscreen devices
8. 2D thermoelectrics
9. Hydrogen storage in 2D and 3D materials
10. 2D nanomaterials for electrokinetic power generation
11. 2D materials for solar fuels production
12. Application of two-dimensional materials for electrochemical carbon dioxide reduction

Subject Areas: Materials science [TGM]

View full details