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Depolarization Field-Induced Photovoltaic Effect in Graphene/α-In
2
Se
3
/Graphene Heterostructures
Shahriar Muhammad Nahid
, SungWoo Nam
,
Arend M. van der Zande
Mechanical Science and Engineering
Materials Science and Engineering
Micro and Nanotechnology Lab
Materials Research Lab
Research output
:
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›
Article
›
peer-review
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Dive into the research topics of 'Depolarization Field-Induced Photovoltaic Effect in Graphene/α-In
2
Se
3
/Graphene Heterostructures'. Together they form a unique fingerprint.
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Keyphrases
Field-induced
100%
Graphene
100%
Depolarization Field
100%
Graphene Heterostructures
100%
Photovoltaic Effect
100%
In2Se3
100%
Ferroelectric Photovoltaics
100%
Ultrathin
40%
Heterostructure
40%
Band Gap
20%
Density of States
20%
Layer Thickness
20%
Observed Behavior
20%
Finite Density
20%
Power Conversion Efficiency
20%
Few-layer Graphene
20%
Dimensionality Reduction
20%
Wide Bandgap
20%
Design Principles
20%
Energy Conversion
20%
Semimetal
20%
Thickness Dependence
20%
Ferroelectric Polarization
20%
Short-circuit Photocurrent
20%
Field Model
20%
Alternate Pathway
20%
Centrosymmetric Materials
20%
Bound Charges
20%
Ferroelectric Layer
20%
Vertical Few-layer Graphene
20%
Ultimate Efficiency
20%
Material Science
Ferroelectric Material
100%
Graphene
100%
Heterojunction
100%
Photovoltaic Effect
100%
Few-Layer Graphene
28%
Electronic Circuit
14%
Density
14%
Design Principle
14%
Semimetals
14%
Ferroelectric Thin Films
14%