Handbook of supercapacitor materials: synthesis, characterization, and applications
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| Sprache: | English |
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Weinheim
Wiley-VCH
[2022]
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| ISBN: | 9783527346875 |
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| 084 | |a 540 |2 23sdnb | ||
| 245 | 1 | 0 | |a Handbook of supercapacitor materials |b synthesis, characterization, and applications |c edited by Rajender Boddula, Anish Khan, Abdullah M. Asiri, Aleksandr E. Kolosov |
| 264 | 1 | |a Weinheim |b Wiley-VCH |c [2022] | |
| 300 | |a xi, 332 Seiten |b Illustrationen, Diagramme |c 24.4 cm x 17 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 0 | 7 | |a Werkstoff |0 (DE-588)4065579-9 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Superkondensator |0 (DE-588)4701310-2 |2 gnd |9 rswk-swf |
| 653 | |a Batterien u. Brennstoffzellen | ||
| 653 | |a Batteries & Fuel Cells | ||
| 653 | |a CHA1: Batterien u. Brennstoffzellen | ||
| 653 | |a Chemie | ||
| 653 | |a Chemistry | ||
| 653 | |a EG40: Energietechnik | ||
| 653 | |a Electronic Materials | ||
| 653 | |a Elektronische Materialien | ||
| 653 | |a Energie | ||
| 653 | |a Energietechnik | ||
| 653 | |a Energy | ||
| 653 | |a MS40: Elektronische Materialien | ||
| 653 | |a Materials Science | ||
| 653 | |a Materialwissenschaften | ||
| 653 | |a Power Technology & Power Engineering | ||
| 655 | 7 | |0 (DE-588)4143413-4 |a Aufsatzsammlung |2 gnd-content | |
| 689 | 0 | 0 | |a Superkondensator |0 (DE-588)4701310-2 |D s |
| 689 | 0 | 1 | |a Werkstoff |0 (DE-588)4065579-9 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Boddula, Rajender |0 (DE-588)1231759089 |4 edt | |
| 700 | 1 | |a Khan, Anish |0 (DE-588)1155752694 |4 edt | |
| 700 | 1 | |a Asiri, Abdullah Mohamed |d 1966- |0 (DE-588)1138993166 |4 edt | |
| 700 | 1 | |a Kolosov, Aleksandr E. |4 edt | |
| 710 | 2 | |a Wiley-VCH |0 (DE-588)16179388-5 |4 pbl | |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, PDF |z 978-3-527-82476-2 |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, EPUB |z 978-3-527-82478-6 |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-3-527-82477-9 |
| 856 | 4 | 2 | |m X:MVB |u http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34687-5/ |
| 856 | 4 | 2 | |m DNB Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032810130&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-032810130 | |
Datensatz im Suchindex
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| adam_text |
CONTENTS
PREFACE
XL
1
LIGNIN-DERIVED
MATERIALS
FOR
SUPERCAPACITORS
1
JESUS
MUNIZ,
ANA
K.
CUENTAS-GALLEGOS,
MIGUEL
ROBLES,
ALFREDO
GUILLEN-LOPEZ,
DIEGO
R.
LOBATO-PERALTA,
AND
JOJHAR
E.
PASCOE-SUSSONI
1.1
1.1.1
1.1.2
1.1.3
1.2
1.2.1
1.2.1.1
1.2.2
1.2.2.1
1.2.3
1.2.3.1
1.2.3.2
1.2.3.3
1.2.3.4
1.2.4
1.3
1.3.1
1.3.1.1
1.3.2
1.3.2.1
1.3.2.2
1.3.2.3
1.3.2.4
1.4
LIGNOCELLULOSIC
BIOMASS
CONVERSION
TO
VALUE-ADDED
PRODUCTS
1
CELLULOSE
1
HEMICELLULOSE
2
LIGNIN
4
PRODUCTION
OF
CARBON
MATERIALS
BY
THERMOCHEMICAL
PROCESSES
6
HYDROTHERMAL
PROCESSING
7
HYDROTHERMAL
PROCESSING
MECHANISM
7
GASIFICATION
7
LIGNOCELLULOSIC
BIOMASS
GASIFICATION
MECHANISM
8
PYROLYSIS
9
LIGNOCELLULOSIC
BIOMASS
PYROLYSIS
9
FAST
PYROLYSIS
10
INTERMEDIATE
PYROLYSIS
11
SLOW
PYROLYSIS
11
SOLAR
PYROLYSIS
12
NANOPOROUS
CARBON
OBTAINED
FROM
BIOMASS
FOR
SC
APPLICATIONS
13
SUPERCAPACITORS
13
ELECTRIC
DOUBLE-LAYER
CAPACITORS
(EDLCS)
14
CARBON
MATERIALS
FOR
EDLC
16
PHYSICAL
ACTIVATION
16
CHEMICAL
ACTIVATION
17
PSEUDOCAPACITORS
18
HYBRID
SUPERCAPACITORS
19
COMPUTATIONAL
SIMULATION
OF
NANOCARBON
STRUCTURES
FROM
LIGNIN-DERIVED
MATERIALS
WITH
POTENTIAL
APPLICATION
IN
ENERGY
STORAGE
DEVICES
19
1.4.1
COMPUTATIONAL
STUDY
OF
LIGNIN
FROM
DIFFERENT
COMPUTATIONAL
APPROACHES
19
VI
CONTENTS
1.4.2
COMPUTATIONAL
STUDIES
OF
LIGNIN
THROUGH
PYROLYSIS-SIMULATED
MOLECULAR
DYNAMICS
26
1.5
TAILORING
NANOCARBON
STRUCTURES
TO
ENHANCE
THE
PERFORMANCE
OF
ELECTRODES
IN
SUPERCAPACITORS
31
1.5.1
MD
TO
AID
THE
DESIGN
OF
EDLCS
34
1.6
PERSPECTIVES FOR
FUTURE
DEVELOPMENT
35
ACKNOWLEDGMENTS
36
REFERENCES
36
2
SOME
ASPECTS
OF
PREPARATIONS
AND
APPLICATIONS
OF
ELECTROCHEMICAL
DOUBLE-LAYER
CAPACITORS
(SUPERCAPACITORS)
53
ALEKSANDR
E.
KOLOSOV,
VOLODYMYR
Y.
IZOTOV,
ELENA
P.
KOLOSOVA,
VOLODYMYR
V.
VANIN,
AND
ANISH
KHAN
2.1
INTRODUCTION
53
2.2
SUPERCAPACITORS
AND
RECHARGEABLE
BATTERIES
55
2.3
COMBINED
ELECTRODES
FOR
DOUBLE
ELECTROCHEMICAL
LAYER
CAPACITORS
56
2.3.1
BRIEF
STATE-OF-THE-ART
ANALYSIS
REGARDING
THE
TECHNICAL
MEANS
OF
MANUFACTURING
ELECTRODES
FOR
ELECTROCHEMICAL
DOUBLE-LAYER
CAPACITOR
56
2.3.2
ELECTRODE
FABRICATION
METHOD
FOR
ELECTROCHEMICAL
DOUBLE-LAYER
CAPACITORS
57
2.3.3
COMBINED
ELECTRODE
FOR
DOUBLE
ELECTROCHEMICAL
LAYER
CAPACITORS
60
2.3.4
IMPROVED
COMPOSITE
ELECTRODE
FOR
SUPERCAPACITORS
63
2.4
PROSPECTIVE
CARBON
NANOMATERIALS
FOR
MANUFACTURING
ELECTRODES
OF
SUPERCAPACITORS:
NANOTUBES
AND
GRAPHENE
67
2.5
USING
ULTRASOUND
WHILE
GETTING
SUPERCAPACITORS
69
2.6
SOME
PERSPECTIVE
APPLICATIONS
FOR
SUPERCAPACITORS
70
2.7
CONCLUSIONS
72
REFERENCES
72
3
METAL
HYDROXIDES
FOR
SUPERCAPACITORS
79
VIRESH
KUMAR,
RIGVED
SAMANT,
ABU
FAIZAL,
AND
HIMANSHU
S.
PANDA
3.1
INTRODUCTION
79
3.2
UNARY
METAL
HYDROXIDES
81
3.2.1
NICKEL
HYDROXIDE
(NH)
81
3.2.2
COBALT HYDROXIDE
86
3.2.3
IRON
HYDROXIDE
89
3.2.4
MANGANESE
HYDROXIDE
91
3.2.5
CADMIUM
HYDROXIDE
91
3.2.6
COPPER
HYDROXIDE
93
3.3
BINARY
AND
TERNARY
HYDROXIDES
96
3.4
SUMMARY
101
REFERENCES
105
CONTENTS
VII
4
POLYANILINE-BASED
MATERIALS
FOR
SUPERCAPACITORS
113
ASIM
A.
YAQOOB,
MOHAMAD
N.
M.
IBRAHIM,
AKIL
AHMAD,
ASMA
KHATOON,
AND
SITI
H.
M.
SETAPAR
4.1
4.2
4.3
4.3.1
4.3.2
4.3.3
4.3.4
4.3.5
4.4
4.5
INTRODUCTION
113
SIGNIFICANT
CONDUCTING
MECHANISM
FOR
POLYANILINE
114
PROPERTIES
OF
PANI-BASED
SUPERCAPACITORS
116
HIGH-RATE
SUPERCAPACITORS
116
ELECTROLYTIC
CAPACITORS
116
SMART
SUPERCAPACITORS
116
CARBON
PRECURSOR
117
ELASTIC
SUPERCAPACITORS
117
SIGNIFICANCE
AND
ROLE
OF
PANI
SUPERCAPACITORS
118
CONCLUSION
AND
FUTURE
PERSPECTIVES
121
ACKNOWLEDGMENT
122
REFERENCES
123
5
PEROVSKITES
FOR
SUPERCAPACITORS
131
EHSAN
REZAIE,
ABDOLLAH
HAJALILOU,
AND
YUANHAI
SU
5.1
5.2
5.2.1
5.2.2
5.2.3
5.2.4
5.3
5.3.1
INTRODUCTION
131
CLASSIFICATIONS
AND
STRUCTURES
OF
PEROVSKITE
MATERIALS
132
STOICHIOMETRY
PEROVSKITE
STRUCTURE
132
HALIDE
DOUBLE
PEROVSKITES
134
ORGANIC-INORGANIC
HYBRID
PEROVSKITES
137
CATION
AND
ANION-DEFICIENT
PEROVSKITE
STRUCTURES
137
SUPERCAPACITANCE
PERFORMANCE
OF
PEROVSKITE
MATERIALS
141
CAPACITANCE
PERFORMANCE
OF
SIMPLE
ABO
3
PEROVSKITES
WITH
DIFFERENT
MORPHOLOGIES
142
5.3.2
EFFECT
OF
ELEMENT
DOPING
IN
A-SITE
ON
SUPERCAPACITANCE
PERFORMANCE
OF
PEROVSKITE
MATERIALS
152
5.3.3
EFFECT
OF
ELEMENT
DOPING
IN
B-SITE
ON
SUPERCAPACITANCE
PERFORMANCE
OF
PEROVSKITE
MATERIALS
162
5.3.4
5.4
EFFECT
OF
CATION
LEACHING
ON
CAPACITANCE
STABILITY
168
SUMMARY
175
ACKNOWLEDGMENT
175
REFERENCES
176
6
GENERAL
SYNTHESIS
METHODS
OF
INORGANIC
MATERIALS
FOR
SUPERCAPACITORS
187
MEHMET
H.
CALIMLI,
TUGBA
G.
KARAHAN,
ANISH
KHAN,
AND
FATIH
SEN
6.1
6.2
6.2.1
6.2.1.1
6.3
INTRODUCTION
187
SYNTHESIS
OF
INORGANIC
SUPERCAPACITORS
190
METAL
OXIDES
190
SYNTHESIS
OF
ELECTRODE
MATERIALS
191
CONCLUSIONS
195
REFERENCES
195
VIII
CONTENTS
7
CONDUCTING
POLYMER
CARBON-BASED
BINARY
HYBRID
FOR
SUPERCAPACITORS
205
RINI
JAIN
AND
SATYENDRA
MISHRA
7.1
INTRODUCTION
205
7.2
CONDUCTING
POLYMERS
206
7.2.1
POLYANILINE
(PANI)
206
7.2.2
POLYPYRROLE
(PPY)
206
7.2.3
POLY(3,4-ETHYLENEDIOXYTHIPHENE)
(PEDOT)
206
7.3
CP
APPLICATION
IN
SUPERCAPACITORS
206
7.3.1
LIMITATIONS
OF
CP
ELECTRODE
SUPERCAPACITORS
207
7
A
CARBONACEOUS
MATERIALS
USED
AS
FILLERS
FOR
CONDUCTING
POLYMERS
207
7.4.1
CARBON
NANOTUBES
207
7A.2
CARBON
FIBERS
(CFS)
208
7.4.3
GRAPHENE
AND
GRAPHENE
OXIDE
(GO)
209
7AA
REDUCED
GRAPHENE
OXIDE
(RGO)
209
7.5
NANOCOMPOSITE
SUPERCAPACITOR
APPLICATION/HYBRID
SUPERCAPACITORS
209
7.5.1
CP/CNT
NANOCOMPOSITES
210
7.5.2
CPS/GRAPHENE
COMPOSITES
212
7.5.2.1
CPS/GRAPHENE
OXIDE
213
7.5.2.2
CPS/CHEMICALLY
MODIFIED
GRAPHENE
214
7.6
CONCLUSIONS,
FUTURE
PROSPECTS,
AND
CHALLENGES
218
REFERENCES
219
8
NEW
INORGANIC
NANOMATERIALS
FOR
SUPERCAPACITORS
225
MEHMET
H.
CALIMLI,
GOKCEM
DASDEMIR,
ANISH
KHAN,
AND
FATIH
SEN
8.1
INTRODUCTION
225
8.2
EXPERIMENTAL
227
8.2.1
SYNTHESIS
OF
ZNCO
2
O
4
@NIO/NF
227
8.2.1.1
PREPARATION
OF
NICKEL
FOAM
(NF)
SUBSTRATE
227
8.2.1.2
SYNTHESIS
OF
2D
ZNCO
2
O
4
/NF
NANOFLAKE
STRUCTURES
227
8.2.2
FABRICATION
ZNWO
4
NANOPARTICLES
229
8.2.3
PROCEDURE
OF
FABRICATION
OF
5-MNO
2
/HCS
231
8.2.3.1
FABRICATION
OF
5-MNO
2
231
8.2.3.2
SYNTHESIS
OF
HCS
232
8.2.3.3
5-MNO
2
/HCS
SYNTHESIS
232
8.2.4
PROCEDURE
CONI
2
S
4
ULTRATHIN
NANOSHEETS
(FREESTANDING)
PREPARATION
232
8.2.4.1
PREPARATION
OF
NI
0
75
CO
0
25
(OH)
2
(CO
3
)
0125
EXHIBITING
FREE
NANOSCALED
SHEETS
232
5.2.4.2
FABRICATION
OF
CONI
2
S
4
ULTRATHIN
FREESTANDING
NANOSHEETS
233
8.3
ELECTROCHEMICAL
PERFORMANCE
234
8.4
CONCLUSION
237
REFERENCES
239
CONTENTS
IX
9
METAL
OXIDES
FOR
SUPERCAPACITORS
245
REZA
GHAFFARI
ADLI,
YUANHAI
SU,
MIR
GHASEM
HOSSEINI,
AND
ABDALLAH
HAJALILOU
9.1
9.2
9.3
9.4
9.4.1
9.4.1.1
9.4.1.2
9.4.1.3
9.4.1.4
9.4.1.5
9.4.1.6
9.4.1.7
9.4.1.8
9.4.1.9
9.4.1.10
9.4.2
9.4.2.1
9.4.2.2
9.4.2.3
9.4.2.4
9.4.2.5
9.5
INTRODUCTION
245
ELECTROCHEMICAL
MEASUREMENTS
247
CHARACTERIZATION
METHODS
OF
ELECTRODE
MATERIALS
249
ELECTRODE
MATERIALS
249
TRANSITION
METAL
OXIDES
250
R
U
O
2
250
MNO
2
251
NIO
253
CO
3
O
4
254
MOO
2
/MOO
3
254
SNO
2
256
IRON
OXIDES
256
V
2
O
5
258
WO
3
259
BI
2
O
3
260
MIXED
TRANSITION
METAL
OXIDES
263
METAL
COBALTITE
263
METAL
TUNGSTATE
266
METAL
VANADATES
266
METAL
PHOSPHATE
270
METAL
MOLYBDATS
270
CONCLUSION
AND
FUTURE
RESEARCH
271
ACKNOWLEDGMENT
272
REFERENCES
272
10
HIGH-SURFACE
SACCHARUM
OFFICINARUM
BASED
MATERIALS
FOR
SUPERCAPACITOR
APPLICATIONS
285
DIVYA
VELPULA,
SHILPA
CHAKRA
CHIDURALA,
RAKESH
KUMAR
THIDA,
AND
SHIREESHA
KONDA
10.1
10.2
10.3
10.4
10.5
10.5.1
INTRODUCTION
285
CHEMICAL
COMPOSITION
OF
SCB
AND
SCBA
286
ADVANTAGEOUS
UTILIZATIONS
OF
SCB
AND
SCBA
287
APPLICATIONS
OF
SCB
AND
SCBA
287
ORGANISM-BASED
MATERIALS
AS
SUPERCAPACITORS
289
SYNTHESIS
OF
CARBON-BASED
MATERIALS
FROM
SACCHARUM
OFFICINARUM
FOR
SUPERCAPACITOR
APPLICATIONS
290
10.5.1.1
10.5.1.2
CARBON
AEROGEL
290
ACTIVATED
CARBON
291
10.5.1.3
.
HYDROTHERMALLY
TREATED
AND
ACTIVATED
CARBON
292
10.6
CONCLUSION
AND
FUTURE
RESEARCH
295
REFERENCES
296
X
CONTENTS
11
MICROWAVE-ASSISTED
GRAPHENE-BASED
CONDUCTING
POLYMER
MATERIALS
FOR
SUPERCAPACITORS
299
SENTHIL
K.
KANDASAMY,
KAVITHA
N.
SINGARAM,
HEMALATHA
KRISHNAMOORTHY,
CHANDRASEKARAN
ARUMUGAM,
SHANMUGAM
PALANISAMY,
KANNAN
KANDASAMY,
ANISH
KHAN,
ABDULLAH
M.
ASIRI,
AND
HURIJA
D.-CANCAR
11.1
INTRODUCTION
299
11.1.1
EDLCS
302
11.1.2
PSEUDOCAPACITORS
302
11.2
COMPOSITES
304
11.3
MICROWAVE
ANNEALING
AND
ITS
IMPACTS
305
11.3.1
GRAPHENE
OXIDE/POLYANILINE
COMPOSITE
306
11.3.1.1
SYNTHESIS
OF
GRAPHENE
OXIDE/POLYANILINE
COMPOSITE
307
11.3.1.2
MICROWAVE
ANNEALING
OF
GRAPHENE
OXIDE/POLYANILINE
COMPOSITE
308
11.3.1.3
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PANI
AND
FEEDING
RATIO
ON
STRUCTURAL
PROPERTIES
309
11.3.1.4
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PANI
AND
FEEDING
RATIO
ON
ELECTROCHEMICAL
ANALYSIS
310
11.3.2
GRAPHENE
OXIDE/POLYPYRROLE
COMPOSITE
313
11.3.2.1
SYNTHESIS
OF
GRAPHENE
OXIDE/POLYPYRROLE
NANOCOMPOSITE
316
11.3.2.2
MICROWAVE
ANNEALING
OF
GRAPHENE
OXIDE/POLYPYRROLE
NANOCOMPOSITE
317
11.3.2.3
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PPY
AND
FEEDING
RATIO
ON
STRUCTURAL
PROPERTIES
317
11.3.2.4
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PPY
AND
FEEDING
RATIO
ON
ELECTROCHEMICAL
ANALYSIS
318
11.4
CONCLUSIONS
AND
FUTURE
WORK
320
REFERENCES
321
INDEX
327 |
| adam_txt |
CONTENTS
PREFACE
XL
1
LIGNIN-DERIVED
MATERIALS
FOR
SUPERCAPACITORS
1
JESUS
MUNIZ,
ANA
K.
CUENTAS-GALLEGOS,
MIGUEL
ROBLES,
ALFREDO
GUILLEN-LOPEZ,
DIEGO
R.
LOBATO-PERALTA,
AND
JOJHAR
E.
PASCOE-SUSSONI
1.1
1.1.1
1.1.2
1.1.3
1.2
1.2.1
1.2.1.1
1.2.2
1.2.2.1
1.2.3
1.2.3.1
1.2.3.2
1.2.3.3
1.2.3.4
1.2.4
1.3
1.3.1
1.3.1.1
1.3.2
1.3.2.1
1.3.2.2
1.3.2.3
1.3.2.4
1.4
LIGNOCELLULOSIC
BIOMASS
CONVERSION
TO
VALUE-ADDED
PRODUCTS
1
CELLULOSE
1
HEMICELLULOSE
2
LIGNIN
4
PRODUCTION
OF
CARBON
MATERIALS
BY
THERMOCHEMICAL
PROCESSES
6
HYDROTHERMAL
PROCESSING
7
HYDROTHERMAL
PROCESSING
MECHANISM
7
GASIFICATION
7
LIGNOCELLULOSIC
BIOMASS
GASIFICATION
MECHANISM
8
PYROLYSIS
9
LIGNOCELLULOSIC
BIOMASS
PYROLYSIS
9
FAST
PYROLYSIS
10
INTERMEDIATE
PYROLYSIS
11
SLOW
PYROLYSIS
11
SOLAR
PYROLYSIS
12
NANOPOROUS
CARBON
OBTAINED
FROM
BIOMASS
FOR
SC
APPLICATIONS
13
SUPERCAPACITORS
13
ELECTRIC
DOUBLE-LAYER
CAPACITORS
(EDLCS)
14
CARBON
MATERIALS
FOR
EDLC
16
PHYSICAL
ACTIVATION
16
CHEMICAL
ACTIVATION
17
PSEUDOCAPACITORS
18
HYBRID
SUPERCAPACITORS
19
COMPUTATIONAL
SIMULATION
OF
NANOCARBON
STRUCTURES
FROM
LIGNIN-DERIVED
MATERIALS
WITH
POTENTIAL
APPLICATION
IN
ENERGY
STORAGE
DEVICES
19
1.4.1
COMPUTATIONAL
STUDY
OF
LIGNIN
FROM
DIFFERENT
COMPUTATIONAL
APPROACHES
19
VI
CONTENTS
1.4.2
COMPUTATIONAL
STUDIES
OF
LIGNIN
THROUGH
PYROLYSIS-SIMULATED
MOLECULAR
DYNAMICS
26
1.5
TAILORING
NANOCARBON
STRUCTURES
TO
ENHANCE
THE
PERFORMANCE
OF
ELECTRODES
IN
SUPERCAPACITORS
31
1.5.1
MD
TO
AID
THE
DESIGN
OF
EDLCS
34
1.6
PERSPECTIVES FOR
FUTURE
DEVELOPMENT
35
ACKNOWLEDGMENTS
36
REFERENCES
36
2
SOME
ASPECTS
OF
PREPARATIONS
AND
APPLICATIONS
OF
ELECTROCHEMICAL
DOUBLE-LAYER
CAPACITORS
(SUPERCAPACITORS)
53
ALEKSANDR
E.
KOLOSOV,
VOLODYMYR
Y.
IZOTOV,
ELENA
P.
KOLOSOVA,
VOLODYMYR
V.
VANIN,
AND
ANISH
KHAN
2.1
INTRODUCTION
53
2.2
SUPERCAPACITORS
AND
RECHARGEABLE
BATTERIES
55
2.3
COMBINED
ELECTRODES
FOR
DOUBLE
ELECTROCHEMICAL
LAYER
CAPACITORS
56
2.3.1
BRIEF
STATE-OF-THE-ART
ANALYSIS
REGARDING
THE
TECHNICAL
MEANS
OF
MANUFACTURING
ELECTRODES
FOR
ELECTROCHEMICAL
DOUBLE-LAYER
CAPACITOR
56
2.3.2
ELECTRODE
FABRICATION
METHOD
FOR
ELECTROCHEMICAL
DOUBLE-LAYER
CAPACITORS
57
2.3.3
COMBINED
ELECTRODE
FOR
DOUBLE
ELECTROCHEMICAL
LAYER
CAPACITORS
60
2.3.4
IMPROVED
COMPOSITE
ELECTRODE
FOR
SUPERCAPACITORS
63
2.4
PROSPECTIVE
CARBON
NANOMATERIALS
FOR
MANUFACTURING
ELECTRODES
OF
SUPERCAPACITORS:
NANOTUBES
AND
GRAPHENE
67
2.5
USING
ULTRASOUND
WHILE
GETTING
SUPERCAPACITORS
69
2.6
SOME
PERSPECTIVE
APPLICATIONS
FOR
SUPERCAPACITORS
70
2.7
CONCLUSIONS
72
REFERENCES
72
3
METAL
HYDROXIDES
FOR
SUPERCAPACITORS
79
VIRESH
KUMAR,
RIGVED
SAMANT,
ABU
FAIZAL,
AND
HIMANSHU
S.
PANDA
3.1
INTRODUCTION
79
3.2
UNARY
METAL
HYDROXIDES
81
3.2.1
NICKEL
HYDROXIDE
(NH)
81
3.2.2
COBALT HYDROXIDE
86
3.2.3
IRON
HYDROXIDE
89
3.2.4
MANGANESE
HYDROXIDE
91
3.2.5
CADMIUM
HYDROXIDE
91
3.2.6
COPPER
HYDROXIDE
93
3.3
BINARY
AND
TERNARY
HYDROXIDES
96
3.4
SUMMARY
101
REFERENCES
105
CONTENTS
VII
4
POLYANILINE-BASED
MATERIALS
FOR
SUPERCAPACITORS
113
ASIM
A.
YAQOOB,
MOHAMAD
N.
M.
IBRAHIM,
AKIL
AHMAD,
ASMA
KHATOON,
AND
SITI
H.
M.
SETAPAR
4.1
4.2
4.3
4.3.1
4.3.2
4.3.3
4.3.4
4.3.5
4.4
4.5
INTRODUCTION
113
SIGNIFICANT
CONDUCTING
MECHANISM
FOR
POLYANILINE
114
PROPERTIES
OF
PANI-BASED
SUPERCAPACITORS
116
HIGH-RATE
SUPERCAPACITORS
116
ELECTROLYTIC
CAPACITORS
116
SMART
SUPERCAPACITORS
116
CARBON
PRECURSOR
117
ELASTIC
SUPERCAPACITORS
117
SIGNIFICANCE
AND
ROLE
OF
PANI
SUPERCAPACITORS
118
CONCLUSION
AND
FUTURE
PERSPECTIVES
121
ACKNOWLEDGMENT
122
REFERENCES
123
5
PEROVSKITES
FOR
SUPERCAPACITORS
131
EHSAN
REZAIE,
ABDOLLAH
HAJALILOU,
AND
YUANHAI
SU
5.1
5.2
5.2.1
5.2.2
5.2.3
5.2.4
5.3
5.3.1
INTRODUCTION
131
CLASSIFICATIONS
AND
STRUCTURES
OF
PEROVSKITE
MATERIALS
132
STOICHIOMETRY
PEROVSKITE
STRUCTURE
132
HALIDE
DOUBLE
PEROVSKITES
134
ORGANIC-INORGANIC
HYBRID
PEROVSKITES
137
CATION
AND
ANION-DEFICIENT
PEROVSKITE
STRUCTURES
137
SUPERCAPACITANCE
PERFORMANCE
OF
PEROVSKITE
MATERIALS
141
CAPACITANCE
PERFORMANCE
OF
SIMPLE
ABO
3
PEROVSKITES
WITH
DIFFERENT
MORPHOLOGIES
142
5.3.2
EFFECT
OF
ELEMENT
DOPING
IN
A-SITE
ON
SUPERCAPACITANCE
PERFORMANCE
OF
PEROVSKITE
MATERIALS
152
5.3.3
EFFECT
OF
ELEMENT
DOPING
IN
B-SITE
ON
SUPERCAPACITANCE
PERFORMANCE
OF
PEROVSKITE
MATERIALS
162
5.3.4
5.4
EFFECT
OF
CATION
LEACHING
ON
CAPACITANCE
STABILITY
168
SUMMARY
175
ACKNOWLEDGMENT
175
REFERENCES
176
6
GENERAL
SYNTHESIS
METHODS
OF
INORGANIC
MATERIALS
FOR
SUPERCAPACITORS
187
MEHMET
H.
CALIMLI,
TUGBA
G.
KARAHAN,
ANISH
KHAN,
AND
FATIH
SEN
6.1
6.2
6.2.1
6.2.1.1
6.3
INTRODUCTION
187
SYNTHESIS
OF
INORGANIC
SUPERCAPACITORS
190
METAL
OXIDES
190
SYNTHESIS
OF
ELECTRODE
MATERIALS
191
CONCLUSIONS
195
REFERENCES
195
VIII
CONTENTS
7
CONDUCTING
POLYMER
CARBON-BASED
BINARY
HYBRID
FOR
SUPERCAPACITORS
205
RINI
JAIN
AND
SATYENDRA
MISHRA
7.1
INTRODUCTION
205
7.2
CONDUCTING
POLYMERS
206
7.2.1
POLYANILINE
(PANI)
206
7.2.2
POLYPYRROLE
(PPY)
206
7.2.3
POLY(3,4-ETHYLENEDIOXYTHIPHENE)
(PEDOT)
206
7.3
CP
APPLICATION
IN
SUPERCAPACITORS
206
7.3.1
LIMITATIONS
OF
CP
ELECTRODE
SUPERCAPACITORS
207
7
A
CARBONACEOUS
MATERIALS
USED
AS
FILLERS
FOR
CONDUCTING
POLYMERS
207
7.4.1
CARBON
NANOTUBES
207
7A.2
CARBON
FIBERS
(CFS)
208
7.4.3
GRAPHENE
AND
GRAPHENE
OXIDE
(GO)
209
7AA
REDUCED
GRAPHENE
OXIDE
(RGO)
209
7.5
NANOCOMPOSITE
SUPERCAPACITOR
APPLICATION/HYBRID
SUPERCAPACITORS
209
7.5.1
CP/CNT
NANOCOMPOSITES
210
7.5.2
CPS/GRAPHENE
COMPOSITES
212
7.5.2.1
CPS/GRAPHENE
OXIDE
213
7.5.2.2
CPS/CHEMICALLY
MODIFIED
GRAPHENE
214
7.6
CONCLUSIONS,
FUTURE
PROSPECTS,
AND
CHALLENGES
218
REFERENCES
219
8
NEW
INORGANIC
NANOMATERIALS
FOR
SUPERCAPACITORS
225
MEHMET
H.
CALIMLI,
GOKCEM
DASDEMIR,
ANISH
KHAN,
AND
FATIH
SEN
8.1
INTRODUCTION
225
8.2
EXPERIMENTAL
227
8.2.1
SYNTHESIS
OF
ZNCO
2
O
4
@NIO/NF
227
8.2.1.1
PREPARATION
OF
NICKEL
FOAM
(NF)
SUBSTRATE
227
8.2.1.2
SYNTHESIS
OF
2D
ZNCO
2
O
4
/NF
NANOFLAKE
STRUCTURES
227
8.2.2
FABRICATION
ZNWO
4
NANOPARTICLES
229
8.2.3
PROCEDURE
OF
FABRICATION
OF
5-MNO
2
/HCS
231
8.2.3.1
FABRICATION
OF
5-MNO
2
231
8.2.3.2
SYNTHESIS
OF
HCS
232
8.2.3.3
5-MNO
2
/HCS
SYNTHESIS
232
8.2.4
PROCEDURE
CONI
2
S
4
ULTRATHIN
NANOSHEETS
(FREESTANDING)
PREPARATION
232
8.2.4.1
PREPARATION
OF
NI
0
75
CO
0
25
(OH)
2
(CO
3
)
0125
EXHIBITING
FREE
NANOSCALED
SHEETS
232
5.2.4.2
FABRICATION
OF
CONI
2
S
4
ULTRATHIN
FREESTANDING
NANOSHEETS
233
8.3
ELECTROCHEMICAL
PERFORMANCE
234
8.4
CONCLUSION
237
REFERENCES
239
CONTENTS
IX
9
METAL
OXIDES
FOR
SUPERCAPACITORS
245
REZA
GHAFFARI
ADLI,
YUANHAI
SU,
MIR
GHASEM
HOSSEINI,
AND
ABDALLAH
HAJALILOU
9.1
9.2
9.3
9.4
9.4.1
9.4.1.1
9.4.1.2
9.4.1.3
9.4.1.4
9.4.1.5
9.4.1.6
9.4.1.7
9.4.1.8
9.4.1.9
9.4.1.10
9.4.2
9.4.2.1
9.4.2.2
9.4.2.3
9.4.2.4
9.4.2.5
9.5
INTRODUCTION
245
ELECTROCHEMICAL
MEASUREMENTS
247
CHARACTERIZATION
METHODS
OF
ELECTRODE
MATERIALS
249
ELECTRODE
MATERIALS
249
TRANSITION
METAL
OXIDES
250
R
U
O
2
250
MNO
2
251
NIO
253
CO
3
O
4
254
MOO
2
/MOO
3
254
SNO
2
256
IRON
OXIDES
256
V
2
O
5
258
WO
3
259
BI
2
O
3
260
MIXED
TRANSITION
METAL
OXIDES
263
METAL
COBALTITE
263
METAL
TUNGSTATE
266
METAL
VANADATES
266
METAL
PHOSPHATE
270
METAL
MOLYBDATS
270
CONCLUSION
AND
FUTURE
RESEARCH
271
ACKNOWLEDGMENT
272
REFERENCES
272
10
HIGH-SURFACE
SACCHARUM
OFFICINARUM
BASED
MATERIALS
FOR
SUPERCAPACITOR
APPLICATIONS
285
DIVYA
VELPULA,
SHILPA
CHAKRA
CHIDURALA,
RAKESH
KUMAR
THIDA,
AND
SHIREESHA
KONDA
10.1
10.2
10.3
10.4
10.5
10.5.1
INTRODUCTION
285
CHEMICAL
COMPOSITION
OF
SCB
AND
SCBA
286
ADVANTAGEOUS
UTILIZATIONS
OF
SCB
AND
SCBA
287
APPLICATIONS
OF
SCB
AND
SCBA
287
ORGANISM-BASED
MATERIALS
AS
SUPERCAPACITORS
289
SYNTHESIS
OF
CARBON-BASED
MATERIALS
FROM
SACCHARUM
OFFICINARUM
FOR
SUPERCAPACITOR
APPLICATIONS
290
10.5.1.1
10.5.1.2
CARBON
AEROGEL
290
ACTIVATED
CARBON
291
10.5.1.3
.
HYDROTHERMALLY
TREATED
AND
ACTIVATED
CARBON
292
10.6
CONCLUSION
AND
FUTURE
RESEARCH
295
REFERENCES
296
X
CONTENTS
11
MICROWAVE-ASSISTED
GRAPHENE-BASED
CONDUCTING
POLYMER
MATERIALS
FOR
SUPERCAPACITORS
299
SENTHIL
K.
KANDASAMY,
KAVITHA
N.
SINGARAM,
HEMALATHA
KRISHNAMOORTHY,
CHANDRASEKARAN
ARUMUGAM,
SHANMUGAM
PALANISAMY,
KANNAN
KANDASAMY,
ANISH
KHAN,
ABDULLAH
M.
ASIRI,
AND
HURIJA
D.-CANCAR
11.1
INTRODUCTION
299
11.1.1
EDLCS
302
11.1.2
PSEUDOCAPACITORS
302
11.2
COMPOSITES
304
11.3
MICROWAVE
ANNEALING
AND
ITS
IMPACTS
305
11.3.1
GRAPHENE
OXIDE/POLYANILINE
COMPOSITE
306
11.3.1.1
SYNTHESIS
OF
GRAPHENE
OXIDE/POLYANILINE
COMPOSITE
307
11.3.1.2
MICROWAVE
ANNEALING
OF
GRAPHENE
OXIDE/POLYANILINE
COMPOSITE
308
11.3.1.3
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PANI
AND
FEEDING
RATIO
ON
STRUCTURAL
PROPERTIES
309
11.3.1.4
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PANI
AND
FEEDING
RATIO
ON
ELECTROCHEMICAL
ANALYSIS
310
11.3.2
GRAPHENE
OXIDE/POLYPYRROLE
COMPOSITE
313
11.3.2.1
SYNTHESIS
OF
GRAPHENE
OXIDE/POLYPYRROLE
NANOCOMPOSITE
316
11.3.2.2
MICROWAVE
ANNEALING
OF
GRAPHENE
OXIDE/POLYPYRROLE
NANOCOMPOSITE
317
11.3.2.3
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PPY
AND
FEEDING
RATIO
ON
STRUCTURAL
PROPERTIES
317
11.3.2.4
EFFECTS
OF
MICROWAVE
TREATMENT
OF
GRAPHENE
OXIDE/PPY
AND
FEEDING
RATIO
ON
ELECTROCHEMICAL
ANALYSIS
318
11.4
CONCLUSIONS
AND
FUTURE
WORK
320
REFERENCES
321
INDEX
327 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author2 | Boddula, Rajender Khan, Anish Asiri, Abdullah Mohamed 1966- Kolosov, Aleksandr E. |
| author2_role | edt edt edt edt |
| author2_variant | r b rb a k ak a m a am ama a e k ae aek |
| author_GND | (DE-588)1231759089 (DE-588)1155752694 (DE-588)1138993166 |
| author_facet | Boddula, Rajender Khan, Anish Asiri, Abdullah Mohamed 1966- Kolosov, Aleksandr E. |
| building | Verbundindex |
| bvnumber | BV047409209 |
| classification_rvk | ZN 4424 ZP 4120 |
| ctrlnum | (OCoLC)1277022070 (DE-599)DNB1232090921 |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik Energietechnik |
| discipline_str_mv | Elektrotechnik / Elektronik / Nachrichtentechnik Energietechnik |
| format | Book |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV047409209 |
| illustrated | Illustrated |
| index_date | 2024-07-03T17:54:59Z |
| indexdate | 2024-09-26T12:01:29Z |
| institution | BVB |
| institution_GND | (DE-588)16179388-5 |
| isbn | 9783527346875 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032810130 |
| oclc_num | 1277022070 |
| open_access_boolean | |
| owner | DE-29T DE-83 DE-703 |
| owner_facet | DE-29T DE-83 DE-703 |
| physical | xi, 332 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm |
| publishDate | 2022 |
| publishDateSearch | 2022 |
| publishDateSort | 2022 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Handbook of supercapacitor materials synthesis, characterization, and applications edited by Rajender Boddula, Anish Khan, Abdullah M. Asiri, Aleksandr E. Kolosov Weinheim Wiley-VCH [2022] xi, 332 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Werkstoff (DE-588)4065579-9 gnd rswk-swf Superkondensator (DE-588)4701310-2 gnd rswk-swf Batterien u. Brennstoffzellen Batteries & Fuel Cells CHA1: Batterien u. Brennstoffzellen Chemie Chemistry EG40: Energietechnik Electronic Materials Elektronische Materialien Energie Energietechnik Energy MS40: Elektronische Materialien Materials Science Materialwissenschaften Power Technology & Power Engineering (DE-588)4143413-4 Aufsatzsammlung gnd-content Superkondensator (DE-588)4701310-2 s Werkstoff (DE-588)4065579-9 s DE-604 Boddula, Rajender (DE-588)1231759089 edt Khan, Anish (DE-588)1155752694 edt Asiri, Abdullah Mohamed 1966- (DE-588)1138993166 edt Kolosov, Aleksandr E. edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-82476-2 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-82478-6 Erscheint auch als Online-Ausgabe 978-3-527-82477-9 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34687-5/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032810130&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of supercapacitor materials synthesis, characterization, and applications Werkstoff (DE-588)4065579-9 gnd Superkondensator (DE-588)4701310-2 gnd |
| subject_GND | (DE-588)4065579-9 (DE-588)4701310-2 (DE-588)4143413-4 |
| title | Handbook of supercapacitor materials synthesis, characterization, and applications |
| title_auth | Handbook of supercapacitor materials synthesis, characterization, and applications |
| title_exact_search | Handbook of supercapacitor materials synthesis, characterization, and applications |
| title_exact_search_txtP | Handbook of supercapacitor materials synthesis, characterization, and applications |
| title_full | Handbook of supercapacitor materials synthesis, characterization, and applications edited by Rajender Boddula, Anish Khan, Abdullah M. Asiri, Aleksandr E. Kolosov |
| title_fullStr | Handbook of supercapacitor materials synthesis, characterization, and applications edited by Rajender Boddula, Anish Khan, Abdullah M. Asiri, Aleksandr E. Kolosov |
| title_full_unstemmed | Handbook of supercapacitor materials synthesis, characterization, and applications edited by Rajender Boddula, Anish Khan, Abdullah M. Asiri, Aleksandr E. Kolosov |
| title_short | Handbook of supercapacitor materials |
| title_sort | handbook of supercapacitor materials synthesis characterization and applications |
| title_sub | synthesis, characterization, and applications |
| topic | Werkstoff (DE-588)4065579-9 gnd Superkondensator (DE-588)4701310-2 gnd |
| topic_facet | Werkstoff Superkondensator Aufsatzsammlung |
| url | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34687-5/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032810130&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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