Two-Dimensional Molecular Charge Density Waves in Single-Layer-Thick Islands of a Dirac Fermion System
- 28 July 2020
- journal article
- research article
- Published by American Chemical Society (ACS) in ACS Nano
- Vol. 14 (7), 8887-8893
- https://doi.org/10.1021/acsnano.0c03694
Abstract
Charge density waves have been intensely studied in inorganic materials such as transition metal dichalcogenides; however their counterpart in organic materials has yet to be explored in detail. Here we report the finding of robust two-dimensional charge density waves in molecular layers formed by alpha-(BEDT-TTF)(2)-I-3 on a Ag(111) surface. Low-temperature scanning tunneling microscopy images of a multilayer thick a(BEDT-TTF)(2)-I-3 on a Ag(111) substrate reveal the coexistence of 5a(0) X 5a(0) and root 31 a(0) x root 31 a(0) R9 degrees charge density wave patterns commensurate with the underlying molecular lattice at 80 K. Both charge density wave patterns remain in nanosize molecular islands with just a single constituent molecular-layer thickness at 80 and 5 K. Local tunneling spectroscopy measurements reveal the variation of the gap from 244 to 288 meV between the maximum and minimum charge density wave locations. Density functional theory calculations further confirm a vertical positioning of BEDT-TTF molecules in the molecular layer. While the observed charge density wave patterns are stable for the defect sites, they can be reversibly switched for one molecular lattice site by means of inelastic tunneling electron energy transfer with the electron energies exceeding 400 meV using a scanning tunneling microscope manipulation scheme.Funding Information
- Basic Energy Sciences (DE-FG02-02ER-46012)
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