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Plasmonic tuning of near-field heat transfer between graphene monolayers
Xuzhe Ying,
Alex Kamenev
Physics and Astronomy (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
Overview
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Dive into the research topics of 'Plasmonic tuning of near-field heat transfer between graphene monolayers'. Together they form a unique fingerprint.
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Engineering & Materials Science
Plasmonics
100%
Monolayers
89%
Graphene
80%
Tuning
52%
Heat transfer
45%
Plasmons
39%
Hot Temperature
32%
Doping (additives)
25%
Electrostatics
24%
Momentum
20%
Heat exchangers
19%
Temperature
18%
Metals
14%
Electric potential
11%
Physics & Astronomy
near fields
58%
graphene
55%
heat transfer
52%
tuning
51%
heat
44%
interlayers
41%
heat exchangers
26%
plasmons
18%
electrostatics
17%
momentum
15%
electric potential
12%
metals
11%
excitation
11%
temperature
6%
energy
6%
Chemical Compounds
Heat Transfer
73%
Monolayer
51%
Heat
50%
Graphene
48%
Heat Exchanger
31%
Momentum
29%
Plasmon
26%
Nonequilibrium
24%
Voltage
16%
Energy
10%
Metal
10%