The discovery of silicene dates back to 2012. Since then, other Xenes were subsequently created with synthetic methods. The portfolio of Xenes includes different chemical elements of the periodic table and hence the related honeycomb-like lattices show a wealth of electronic and optical properties that can be successfully exploited for applications.
The discovery of silicene dates back to 2012. Since then, other Xenes were subsequently created with synthetic methods. The portfolio of Xenes includes different chemical elements of the periodic table and hence the related honeycomb-like lattices show a wealth of electronic and optical properties that can be successfully exploited for applications.
![Xenes: 2D Synthetic Materials Beyond Graphene](http://img.images-bn.com/static/redesign/srcs/images/grey-box.png?v11.10.4)
Xenes: 2D Synthetic Materials Beyond Graphene
474![Xenes: 2D Synthetic Materials Beyond Graphene](http://img.images-bn.com/static/redesign/srcs/images/grey-box.png?v11.10.4)
Xenes: 2D Synthetic Materials Beyond Graphene
474Product Details
ISBN-13: | 9780128238240 |
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Publisher: | Elsevier Science |
Publication date: | 07/04/2022 |
Series: | Woodhead Publishing Series in Electronic and Optical Materials |
Pages: | 474 |
Product dimensions: | 6.00(w) x 9.00(h) x (d) |