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Controlling Band Alignment in Molecular Junctions: Utilizing Two-Dimensional Transition-Metal Dichalcogenides as Electrodes for Thermoelectric Devices
Chengjun Jin,
Gemma C. Solomon
Department of Chemistry
4
Citations (Scopus)
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Dive into the research topics of 'Controlling Band Alignment in Molecular Junctions: Utilizing Two-Dimensional Transition-Metal Dichalcogenides as Electrodes for Thermoelectric Devices'. Together they form a unique fingerprint.
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Chemical Compounds
Thermoelectricity
75%
Transition Element
49%
Behavior as Electrode
34%
Resonance
27%
Heat
25%
Fermi Level
19%
Work Function
19%
Lowest Unoccupied Molecular Orbital
19%
Phonon
19%
Highest Occupied Molecular Orbital
18%
Electron Transport
16%
Energy
16%
Transport Property
15%
Graphene
12%
Modification
9%
Molecule
5%
Engineering & Materials Science
Transition metals
100%
Electrodes
52%
Molecular orbitals
46%
Fermi level
23%
Electron Transport
21%
Phonons
21%
Chemical modification
20%
Thermoelectric power
19%
Transport properties
17%
Graphene
16%
Molecules
13%
Hot Temperature
13%
Physics & Astronomy
transition metals
56%
alignment
52%
electrodes
42%
molecular orbitals
33%
heat
22%
electrode materials
19%
graphene
13%
transport properties
13%
phonons
11%
energy
10%
sensitivity
9%
molecules
9%
electronics
8%
performance
7%
electrons
7%