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Nanodiamond converted hollow graphene spheres as electrodes for supercapacitors
J.L. Li, S. Su, J. Li, H. Ye
Electrical and Electronic Engineering
Aston Institute of Photonics Technology (AIPT)
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Engineering & Materials Science
Nanodiamonds
100%
Polyacrylonitriles
87%
Graphene
69%
Supercapacitor
68%
Nitrogen
54%
Amorphous carbon
45%
Electrodes
45%
Specific surface area
37%
Annealing
29%
Capacitance
25%
Acoustic impedance
21%
Composite materials
17%
Chemistry
Nitrogen Group
85%
Nanodiamond
73%
Sphere
49%
Graphene
41%
Electrical Resistance
34%
Behavior as Electrode
29%
Annealing
23%
Specific Surface Area
22%
Amorphous Material
20%
Porosity
17%
Composite Material
14%
Carbon Atom
13%
Mixture
12%
Physics & Astronomy
electrochemical capacitors
78%
polyacrylonitrile
78%
graphene
47%
nitrogen
43%
electrodes
36%
electrode materials
34%
electrical resistance
31%
capacitance
23%
carbon
19%
composite materials
17%
annealing
17%