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- Title
Suppression of Defects and Deep Levels Using Isoelectronic Tungsten Substitution in Monolayer MoSe<sub>2</sub>.
- Authors
Li, Xufan; Puretzky, Alexander A.; Sang, Xiahan; KC, Santosh; Tian, Mengkun; Ceballos, Frank; Mahjouri‐Samani, Masoud; Wang, Kai; Unocic, Raymond R.; Zhao, Hui; Duscher, Gerd; Cooper, Valentino R.; Rouleau, Christopher M.; Geohegan, David B.; Xiao, Kai
- Abstract
Defects formed during chemical vapor deposition (CVD) of two-dimensional (2D) transition metal dichalcogenides (TMDs) currently limit their quality and optoelectronic properties. Effective synthesis and processing strategies to suppress defects and enhance the quality of 2D TMDs are urgently needed to enable next generation optoelectronic devices. In this work, isoelectronic doping is presented as a new strategy to form stable alloys and suppress defects and enhance photoluminescence (PL) in CVD-grown TMD monolayers. The isoelectronic substitution of W atoms for Mo atoms in CVD-grown monolayers of Mo1-x W x Se2 (0 < x < 0.18) is shown to effectively suppress Se vacancy concentration by 50% compared to those found in pristine MoSe2 monolayers, resulting in a decrease in defect-mediated nonradiative recombination, ≈10 times more intense PL, and an increase in the carrier lifetime by a factor of 3. Theoretical predictions reveal that isoelectronic W alloying to form Mo1-x W x Se2 monolayers raises the energy of deep level defects in MoSe2 to enable faster quenching, which is confirmed by low temperature (4-125 K) PL from defect-related localized states. Isoelectronic substitution therefore appears to be a promising synthetic method to control the heterogeneity of 2D TMDs to realize the scalable production of high performance optoelectronic and electronic devices.
- Subjects
SUBSTITUENTS (Chemistry); MOLYBDENUM selenides; TUNGSTEN; CHEMICAL synthesis; OPTOELECTRONIC devices
- Publication
Advanced Functional Materials, 2017, Vol 27, Issue 19, pn/a
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.201603850