Chemistry Reference
In-Depth Information
Summary of nanofiber nanogenerators.
a
Table 7.2
Material
Synthesis method
Diameter (nm)
Strain/ strain rate
Peak current
Peak voltage
Ref.
PZT
FFES (M)
60
12%
N/A
1.63 V
14
FFES (S)
100
N/A
N/A
0.4 mV
15
FFES (M)
50-150
0.5%
N/A
0.17 V
16
FFES (M)
370
N/A
45 nA
6 V
84
53 mA/23.5 mAcm
2
FFES (M)
N/A
N/A
209 V
85
34 mm s
1
(at 5 Hz)
4 mAcm
2
PVDF
FFES (M)
187
2.21 V
21
NFES (S)
500-6500
0.085%
0.5-3 nA
5-30 mV
22
NFES (M)
1000-2000
N/A
30 nA
0.2 mV
23
FFES (M)
600
0.05%, 1.67% per second
0.3 nA
20 mV
82
P(VDF-TrFE)
FFES (M)
60-120
N/A
N/A
400 mV
50
10 mm min
1
PVDF
þ
MWCNT
FFES (M)
300-1000
81.8 nW (power)
6 V
55
P(VDF-TrFE)
þ
BaTiO
3
FFES (M)
400-1000
N/A
25 mW (power)
5.02 V
57
2 nA cm
2
ZnO
þ
P(VDF-TrFE)
Hydrothermal
500-1000
0.1%/2.3% per second
B
55 mV
86
NaNbO
3
þ
PVDF
FFES (M)
132-714
N/A
4.2 mA
3.2 V
83
a
FFES: far-field electrospinning, NFES: near-field electrospinning, (S): single fiber, (M): multiple fibers.
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