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Four-Fold Increase in the Intrinsic Capacitance of Graphene through Functionalization and Lattice Disorder
Michael A. Pope, Ilhan A. Aksay
Chemical & Biological Engineering
Civil & Environmental Engineering
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Institute for the Science and Technology of Materials
Research output
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Article
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peer-review
36
Scopus citations
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Engineering & Materials Science
Graphene
100%
Capacitance
72%
Reduced Graphene Oxide
38%
Supercapacitor
28%
Electrolytes
23%
Electrodes
18%
Graphene oxide
17%
Power and Energy
14%
Graphite
12%
Engineers
8%
Electric potential
6%
Physics & Astronomy
graphene
69%
capacitance
67%
disorders
65%
electrochemical capacitors
22%
oxides
15%
nonaqueous electrolytes
13%
electrode materials
9%
engineers
8%
radiant flux density
7%
high voltages
7%
graphite
7%
electrolytes
7%
flux density
6%
electrodes
5%
Chemical Compounds
Disorder
72%
Graphene
60%
Graphene Oxide
33%
Graphite
10%
Voltage
10%
Behavior as Electrode
7%
Energy
6%
Reduction
6%
Reaction Yield
5%