Keyphrases
Transition Metal Dichalcogenides
100%
Symmetry Breaking
100%
State of Charge
100%
Atomic Defects
100%
State Dependence
100%
Lattice Symmetry
66%
Quantum Emitters
66%
Dopant
33%
Sulfur Vacancy
33%
Monolayer MoS2
33%
Scanning Tunneling Microscopy
33%
Electronic Structure
33%
Geometric Structure
33%
Direct Imaging
33%
Chemical Potential
33%
Emission Properties
33%
Host Lattice
33%
Tunneling Contact
33%
Multistability
33%
Optical Emission
33%
Local Lattice Distortion
33%
External Perturbation
33%
Structural Distortion
33%
Jahn-Teller Effect
33%
Bilayer MoS2
33%
Dynamic Disturbance
33%
Rhenium
33%
Local Symmetry Breaking
33%
Spin-photon Interface
33%
Spatial Averaging
33%
Single Point Defect
33%
Noncontact Atomic Force Microscopy
33%
Pseudo Jahn-Teller Effect
33%
Intrinsically Linked
33%
Chemistry
Jahn-Teller Effect
100%
State-of-Charge
100%
Atomic Defect
100%
Transition Metal
100%
Doping Material
50%
Scanning Tunneling Microscopy
50%
Chemical Potential
50%
Crystal Point Defect
50%
Rhenium
50%
Non Contact Atomic Force Microscopy
50%
Monolayers
50%
electronics
50%
Molybdenum Disulfide
50%
Material Science
Transition Metal Dichalcogenide
100%
Atomic Defect
100%
State-of-Charge
100%
Doping (Additives)
50%
Monolayers
50%
Sulfur Vacancies
50%
Point Defect
50%
Rhenium
50%
Scanning Tunneling Microscopy
50%
Atomic Force Microscopy
50%