Graphdiyne: Synthesis, modification and application of a two-dimensional carbonaceous material
Author:
Publisher
Elsevier BV
Subject
General Materials Science,Materials Science (miscellaneous)
Reference128 articles.
1. Effects of low-dimensional material channels on energy consumption of nano-devices[J];Shomali;International Communications in Heat and Mass Transfer,2018
2. 1D and 2D Graphdiynes: Recent Advances on the Synthesis at Interfaces and Potential Nanotechnological Applications[J];Chen;Annalen der Physik,2017
3. A novel carbon support: Few-layered graphdiyne-decorated carbon nanotubes capture metal clusters as effective metal-supported catalysts[J];Lv;Small,2021
4. Origins of Dirac cones and parity dependent electronic structures of alpha-graphyne derivatives and silagraphynes[J];Qin;Nanoscale,2016
5. Synthesis and properties of 2D carbon-graphdiyne[J];Jia;Accounts of chemical research,2017
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1. Self-powered dual-mode sensing strategy based on graphdiyne and DNA nanoring for sensitive detection of tumor biomarker;Biosensors and Bioelectronics;2023-10
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