AI Article Synopsis
- Graphdiyne is a 2D carbon nanostructure with unique mechanical and electronic properties, potentially advantageous for various applications.
- The study focuses on creating an extended graphdiyne-like structure on metallic substrates, specifically using Au(111), through a bottom-up synthesis approach.
- The research utilizes techniques like scanning tunneling microscopy and Raman spectroscopy to analyze how this carbon nanonetwork interacts with its substrate, revealing significant effects on its electronic and vibrational characteristics.
Article Abstract
Graphdiyne, atomically thin two-dimensional (2D) carbon nanostructure based on sp-sp hybridization is an appealing system potentially showing outstanding mechanical and optoelectronic properties. Surface-catalyzed coupling of halogenated sp-carbon-based molecular precursors represents a promising bottom-up strategy to fabricate extended 2D carbon systems with engineered structure on metallic substrates. Here, we investigate the atomic-scale structure and electronic and vibrational properties of an extended graphdiyne-like sp-sp carbon nanonetwork grown on Au(111) by means of the on-surface synthesis. The formation of such a 2D nanonetwork at its different stages as a function of the annealing temperature after the deposition is monitored by scanning tunneling microscopy (STM), Raman spectroscopy, and combined with density functional theory (DFT) calculations. High-resolution STM imaging and the high sensitivity of Raman spectroscopy to the bond nature provide a unique strategy to unravel the atomic-scale properties of sp-sp carbon nanostructures. We show that hybridization between the 2D carbon nanonetwork and the underlying substrate states strongly affects its electronic and vibrational properties, modifying substantially the density of states and the Raman spectrum compared to the free standing system. This opens the way to the modulation of the electronic properties with significant prospects in future applications as active nanomaterials for catalysis, photoconversion, and carbon-based nanoelectronics.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7771048 | PMC |
| http://dx.doi.org/10.1021/acsanm.0c02665 | DOI Listing |
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