Polymer electrolytes: characterization techniques and energy applications
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| Format: | Buch |
| Sprache: | English |
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Weinheim, Germany
Wiley-VCH
[2020]
|
| Schlagworte: | |
| Online-Zugang: | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34200-6/ Inhaltsverzeichnis Inhaltsverzeichnis |
| Beschreibung: | xiii, 401 Seiten Illustrationen, Diagramme 25 cm, 916 g |
| ISBN: | 9783527342006 3527342001 |
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| 020 | |a 3527342001 |9 3-527-34200-1 | ||
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| 245 | 1 | 0 | |a Polymer electrolytes |b characterization techniques and energy applications |c edited by Tan Winie, Abdul K. Arof, and Sabu Thomas |
| 264 | 1 | |a Weinheim, Germany |b Wiley-VCH |c [2020] | |
| 300 | |a xiii, 401 Seiten |b Illustrationen, Diagramme |c 25 cm, 916 g | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 0 | 7 | |a Polyelektrolyt |0 (DE-588)4175165-6 |2 gnd |9 rswk-swf |
| 653 | |a Charakterisierung von Polymeren | ||
| 653 | |a Chemie | ||
| 653 | |a Chemistry | ||
| 653 | |a Components & Devices | ||
| 653 | |a Electrical & Electronics Engineering | ||
| 653 | |a Electrochemistry | ||
| 653 | |a Elektrochemie | ||
| 653 | |a Elektrolyte | ||
| 653 | |a Elektrotechnik u. Elektronik | ||
| 653 | |a Komponenten u. Bauelemente | ||
| 653 | |a Materialien f. Energiesysteme | ||
| 653 | |a Materials for Energy Systems | ||
| 653 | |a Materials Science | ||
| 653 | |a Materialwissenschaften | ||
| 653 | |a Polymer Characterization | ||
| 653 | |a Polymer Science & Technology | ||
| 653 | |a Polymere | ||
| 653 | |a Polymerwissenschaft | ||
| 653 | |a Polymerwissenschaft u. -technologie | ||
| 653 | |a CHA0: Elektrochemie | ||
| 653 | |a EE60: Komponenten u. Bauelemente | ||
| 653 | |a MSL0: Materialien f. Energiesysteme | ||
| 653 | |a PY40: Charakterisierung von Polymeren | ||
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| 689 | 0 | 0 | |a Polyelektrolyt |0 (DE-588)4175165-6 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Winie, Tan |0 (DE-588)1204062870 |4 edt | |
| 700 | 1 | |a Arof, Abdul K. |4 edt | |
| 700 | 1 | |a Thomas, Sabu |d 1960- |0 (DE-588)1021317551 |4 edt | |
| 710 | 2 | |a Wiley-VCH |0 (DE-588)16179388-5 |4 pbl | |
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| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, oBook |z 978-3-527-80545-7 |
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Datensatz im Suchindex
| _version_ | 1814797021485203456 |
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| adam_text |
CONTENTS
PREFACE
XIII
1
POLYMER
ELECTROLYTES:
STATE
OF
THE
ART
1
MASASHI
KOTOBUKI
1.1
1.2
1.3
1.4
1.5
INTRODUCTION
1
SOLID
POLYMER
ELECTROLYTE
4
GEL
POLYMER
ELECTROLYTE
8
COMPOSITE
POLYMER
ELECTROLYTE
12
SUMMARY
17
REFERENCES
17
2
IMPEDANCE
SPECTROSCOPY
IN
POLYMER
ELECTROLYTE
CHARACTERIZATION
23
MOHAMED
ABDUL
CAREEM,
IKHWAN
SYAFIQ
MOHD
NOOR,
AND
ABDUL
K.
AROF
2.1
2.2
2.2.1
2.2.2
2.2.3
2.2.4
2.2.5
2.2.5.1
2.2.5.2
2.2.53
2.2.5A
2.2.5.5
2.2.5.6
2.2.6
2.2.7
2.2.7.1
2.2.7.2
2.2.73
2.2.7
A
2.2.73
2.2.73
INTRODUCTION
23
IS:
PRINCIPAL
OPERATION
AND
EXPERIMENTAL
SETUP
23
BASIC
PRINCIPLES
OF
IMPEDANCE
SPECTROSCOPY
23
IMPEDANCE
SPECTROSCOPY
(IS)
TECHNIQUE
25
ELECTRICAL
CONDUCTIVITY
OF
A
SAMPLE
26
CONDITIONS
NECESSARY
FOR
IS
MEASUREMENTS
26
IMPEDANCE
PLOTS
OF
SIMPLE
CIRCUITS
28
A
PURE
RESISTANCE,
R
28
A
PURE
CAPACITANCE,
C
28
R
AND
C
CONNECTED
IN
SERIES
29
R
AND
C
CONNECTED
IN
PARALLEL
30
COMBINED
SERIES
AND
PARALLEL
CIRCUITS
31
IMPEDANCE
SPECTRA
OF
MODEL
ELECTROLYTE
SYSTEMS
32
POSSIBLE
CONDUCTION
PROCESSES
IN
A
SOLID
ELECTROLYTE
35
IMPEDANCE
SPECTRA
OF
REAL
SYSTEMS
36
THE
CONSTANT
PHASE
ELEMENT
(CPE)
37
EQUIVALENT
CIRCUITS
FOR
REAL
SYSTEMS
37
ELECTROLYTE/ELECTRODE
(E/E)
INTERFACE
39
DIFFUSION
IMPEDANCE
OR
MASS
TRANSPORT
IMPEDANCE
39
WARBURG IMPEDANCE
40
EQUIVALENT
CIRCUIT
REPRESENTATION
OF
AN
E/E
SYSTEM
41
VI
CONTENTS
2.2.8
IMPEDANCE-RELATED
FUNCTIONS
42
2.2.8.1
IMMITTANCE
FUNCTIONS
43
2.2.5.2
RELATIONSHIPS
BETWEEN
IMMITTANCE
FUNCTIONS
43
2.2.8.Z
IMMITTANCE
PLOTS
43
2.2.8.4
CHOICE
BETWEEN
IMMITTANCE
FUNCTIONS
46
2.2.9
EXPERIMENTAL
SETUP
46
2.2.9.1
SAMPLE
AND
CELL
ARRANGEMENT
47
2.2.9.2
OTHER
PRACTICAL
DETAILS
AND
PRECAUTIONS
48
2.3
IS:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
49
2.3.1
DETERMINATION
OF
BULK
RESISTANCE
FROM
THE
IMPEDANCE
PLOTS
49
2.3.2
IMPEDANCE
DATA
INTERPRETATION
AND
ANALYSIS
50
2.3.2.1
INTERPRETATION
OF
IMPEDANCE
DATA
51
2.3.2.2
CHOICE
OF
EQUIVALENT
CIRCUITS
51
2.3.3
DETERMINATION
OF
TRANSPORT
PARAMETERS
FROM
IMPEDANCE
DATA
53
2.3.3.1
BANDARA-MELLANDER
(B-M)
METHOD
53
2.3.3.2
NYQUIST
PLOT
FITTING
METHOD
57
2.3.4
SOME
EXPERIMENTAL
RESULTS
AND
ANALYSIS
59
2.3.4.1
CONDUCTIVITY
CALCULATION
OF
IMPEDANCE
PLOTS
59
2.3.4.2
CONDUCTIVITY
DETERMINATION
FROM
FITTING
EQUIVALENT
CIRCUIT
60
2.3.4.3
EVALUATION
OF
TRANSPORT
PROPERTIES
USING
NYQUIST
PLOT
FITTING
METHOD
60
2.4
CONCLUSIONS
63
REFERENCES
64
3
THERMAL
CHARACTERIZATION
OF
POLYMER
ELECTROLYTES
65
APARNA
THANKAPPAN,
MANUEL
STEPHAN,
AND
SABU
THOMAS
3.1
INTRODUCTION
65
3.2
TGA:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
67
3.3
DSC:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
75
3.4
DSC:
EXPERIMENTAL
ERRORS
AND
SUGGESTION
FOR
IMPROVEMENT
82
3.4.1
TRANSITION(S)
AT
0
C
83
3.4.2
APPARENT
MELTING
AT
T
G
83
3.4.3
EXOTHERMIC
PEAKS
BELOW
DECOMPOSITION
TEMPERATURE WHILE
HEATING
84
3.4.4
BASELINE
SHIFT
AFTER ENDOTHERMIC
OR
EXOTHERMIC
PEAKS
86
3.4.5
SHARP
ENDOTHERMIC
PEAKS
DURING
EXOTHERMIC
REACTIONS
86
3.5
DMA:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
87
REFERENCES
91
4
ENERGY
IN
A
PORTABLE
WORLD
93
NOOR
SYUHADA
ZAKUAN,
WOO
HAWJIUNN,
AND
TAN
WINIE
4.1
INTRODUCTION
93
4.2
HISTORY
DEVELOPMENT
OF
MOBILE
POWER
94
4.3
CARING
FOR
MOBILE
POWER
FROM
BIRTH
TO
RETIREMENT
102
4.3.1
GETTING
THE
MOST
OUT
OF
THE
PRIMARY
BATTERIES
103
4.3.2
GETTING
THE
MOST
OUT
OF
THE
LEAD-ACID
BATTERIES
103
4.3.3
GETTING
THE
MOST
OUT
OF
THE
NICKEL-BASED
BATTERIES
104
CONTENTS
VII
4.3.4
4.4
4.4.1
4.4.2
GETTING
THE
MOST
OUT
OF
THE
LITHIUM
ION
BATTERIES
105
MOBILE
POWER
RECYCLING
106
RECYCLING
PRIMARY
BATTERIES
106
RECYCLING
RECHARGEABLE
BATTERIES
109
ACKNOWLEDGMENTS
111
REFERENCES
111
5
INSIGHT
ON
POLYMER
ELECTROLYTES
FOR
ELECTROCHEMICAL
DEVICES
APPLICATIONS
113
MARIA
MANUELA
SILVA
,
VERONICA
DE
ZEA
BERMUDEZ
,
AND
AGNIESZKA
PAWLICKA
5.1
5.2
5.3
5.3.1
5.3.2
5.3.3
5.3.4
5.3.5
5.3.6
5.3.7
INTRODUCTION
113
THEORY:
IONIC
CONDUCTIVITY
117
APPLICATIONS
120
CONVENTIONAL
BATTERIES
AND
TRANSIENT
BATTERIES
120
FUEL
CELLS
123
SUPERCAPACITORS
124
ELECTROCHROMIC
DEVICES
125
DYE-SENSITIZED
SOLAR
CELLS
127
SENSORS
128
LIGHT-EMITTING
ELECTROCHEMICAL
CELLS
128
REFERENCES
129
6
POLYMER
ELECTROLYTE
APPLICATION
IN
ELECTROCHEMICAL
DEVICES
137
SITI
NOR
FARHANA
YUSUF
AND
ABDUL
K.
AROF
6.1
6.2
6.3
6.3.1
6.3.2
6.3.2.1
6.3.2.2
6.4
6.4.1
6.4.2
6.4.3
6.4.4
6.4.5
6.4.6
6.4.6.1
6.5
6.5.1
6.5.2
6.5.2.1
6.5.2.2
6.5.2.3
INTRODUCTION
137
PROPERTIES
OF
POLYMER
ELECTROLYTES
(PES)
137
REVIEW
OF
POLYMER
ELECTROLYTES
138
DRY
SOLID
POLYMER
ELECTROLYTES
(SPES)
138
GEL
POLYMER
ELECTROLYTES
(GPES)
141
IONIC
LIQUID
GEL
POLYMER
ELECTROLYTES
(ILGPES)
144
GEL
POLYMER
ELECTROLYTES WITH
NANOMATERIALS
146
APPLICATION
OF
PES
IN
ELECTROCHEMICAL
DEVICES
148
DYE-SENSITIZED
SOLAR
CELLS
(DSSCS)
148
LITHIUM
ION
BATTERIES
150
ELECTRICAL
DOUBLE
LAYER
CAPACITORS
(EDLCS)
152
POLYMER
ELECTROLYTE
FUEL
CELLS
156
ELECTROCHROMIC
WINDOWS
163
ELECTROCHROMIC
MATERIALS
164
TRANSITION METAL
OXIDES
164
CHALLENGES
AND
IMPROVEMENTS
167
IN
ELECTROLYTES
167
IN
DEVICES
169
DSSCS
169
FUEL
CELL
170
BATTERIES
171
VIII
CONTENTS
6.5.2.4
6.5.2.5
6.6
6.6.1
6.6.2
6.6.3
6.6.4
EDLCS
172
ELECTROCHROMIC
WINDOWS
(ECWS)
172
FUTURE
ASPECTS
173
ELECTROCHROMIC
WINDOWS
173
BATTERIES
173
DSSCS
173
FUEL
CELLS
174
REFERENCES
175
7
POLYMER
ELECTROLYTES
FOR
LITHIUM
ION
BATTERIES
AND
CHALLENGES:
PART
1
187
SHISHUO
LIANG
,
WENQI
YAN,
MINXIA
LI,
YUSONG
ZHU,
LIJUN
FU,
AND
YUPING
WU
7.1
7.2
7.2.1
7.2.2
7.3
7.4
7.5
INTRODUCTION
187
CLASSIFICATION
OF
POLYMER
ELECTROLYTES
188
SOLID
POLYMER
ELECTROLYTES
(SPES)
188
GEL
POLYMER
ELECTROLYTES
(GPES)
190
PERFORMANCE
AND
IMPROVEMENTS
190
APPLICATION
AND
PERFORMANCE
OF
POLYMER
LITHIUM
ION
BATTERIES
194
FUTURE
TRENDS
195
ACKNOWLEDGMENTS
196
REFERENCES
197
8
POLYMER
ELECTROLYTES
FOR
LITHIUM
ION
BATTERIES
AND
CHALLENGES:
PART
II
201
SITI
NOR
FARHANA
YUSUF
AND
ABDUL
K.
AROF
8.1
8.2
8.2.1
8.2.2
8.2.3
8.2.4
8.3
8.4
8.5
8.6
INTRODUCTION
201
STRUCTURE
AND
OPERATION
OF
LITHIUM
ION
BATTERIES
202
ANODE
MATERIALS
204
CATHODE
MATERIALS
205
ELECTROLYTES
206
LI
+
ION
TRANSPORT
IN
POLYMER
ELECTROLYTES
206
POLYMER
ELECTROLYTE
FOR
LITHIUM
ION
BATTERIES
207
PERFORMANCE
CHARACTERISTICS
OF
LITHIUM
ION
BATTERIES
216
CHALLENGES
AND
IMPROVEMENT
218
FUTURE
TRENDS
219
REFERENCES
221
9
POLYMER
ELECTROLYTES
FOR
SUPERCAPACITOR
AND
CHALLENGES
231
SAFIR
AHMAD
HASHMI,
NITISH
YADAV,
AND
MANOJ
KUMAR
SINGH
9.1
9.2
9.2.1
9.2.2
9.2.2.1
9.2.2.2
9.2.2.3
INTRODUCTION
231
PRINCIPLE
AND
WORKING
PROCESS
OF
SUPERCAPACITORS
232
CHARGE
STORAGE
MECHANISMS
IN
EDLCS
233
CHARGE
STORAGE
MECHANISMS
IN
PSEUDOCAPACITORS
236
UNDERPOTENTIAL
DEPOSITION
237
REDOX
PSEUDOCAPACITANCE
237
INTERCALATION
PSEUDOCAPACITANCE
238
CONTENTS
I
IX
9.3
ELECTROLYTES
FOR
SUPERCAPACITORS
239
9.3.1
LIQUID
ELECTROLYTES
239
9.3.2
POLYMER-BASED
ELECTROLYTES
241
9.3.2.1
SOLVENT-FREE
SOLID
POLYMER
ELECTROLYTES
(SPES)
242
9.3.2.2
GEL
POLYMER
ELECTROLYTES
(GPES)
242
9.3.2.3
POROUS
POLYMER
ELECTROLYTES
252
9.4
PERFORMANCE
CHARACTERISTICS
255
9.4.1
ELECTRODE
CHARACTERIZATION
255
9.4.2
CHARACTERIZATION
OF
SUPERCAPACITORS
258
9.4.2.1
ELECTROCHEMICAL
CHARACTERIZATION
TECHNIQUES
AND
IMPORTANT
PARAMETERS
258
9.4.2.2
PERFORMANCE
OF
POLYMER
ELECTROLYTE-BASED
SUPERCAPACITORS:
SOME
CASE
STUDIES
262
9.5
CHALLENGES
TO
SOLID-STATE
SUPERCAPACITORS
AND
FUTURE
SCOPE
OF
IMPROVEMENT
284
REFERENCES
285
10
POLYMER
ELECTROLYTES
FOR
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
(QDSSCS)
AND
CHALLENGES
299
T.M.WJ.
BANDARA
AND
J.
L.
RATNASEKERA
10.1
DEMAND AND
SUPPLY
OF
ENERGY
299
10.2
THE
SUN
AS
A
POTENTIAL
ENERGY
RESOURCE
300
10.3
ADVANTAGES
OF
SOLAR
CELLS
301
10.4
PHOTO-ELECTROCHEMICAL
SOLAR
CELLS
301
10.4.1
GENERAL
MECHANISM
OF
A
PHOTO-ELECTROCHEMICAL
SOLAR
CELL
303
10.4.2
MECHANISM
OF
A
PHOTO-ELECTROCHEMICAL
SOLAR
CELL
304
10.4.3
SEMICONDUCTOR/POLYMER
ELECTROLYTE
JUNCTION
308
10.4.4
PHOTO-SENSITIZATION
OF
WIDE
BANDGAP
SEMICONDUCTORS
308
10.5
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
(QDSSCS)
310
10.5.1
QUANTUM
DOTS
310
10.5.2
MECHANISM
OF
A
QDSSC
313
10.5.3
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
(QDSSCS)
314
10.5.4
POLYMER
ELECTROLYTES
FOR
QDSSCS
317
10.6
PERFORMANCES
OF
DIFFERENT
QDSSCS
ASSEMBLIES
BASED
ON
POLYMER
ELECTROLYTES
318
10.6.1
QUASI-SOLID-STATE
QDSSCS
BASED
ON
POLYACRYLAMIDE
HYDROGEL
ELECTROLYTES
318
10.6.1.1
HYDROGEL
ELECTROLYTE
WITH
POLYACRYLAMIDE
318
10.6.2
CDS-SENSITIZED
CELL
WITH
PAN
AND
PVDF
ELECTROLYTES
319
10.6.3
ZNO-BASED
QUASI-SOLID
QDSSCS
SENSITIZED
WITH
CDS
AND
CDSE
323
10.6.3.1
QUASI-SOLID-STATE
ELECTROLYTE
PREPARATION
324
10.6.4
NATURAL
POLYSACCHARIDE
THIN
FILM-BASED
ELECTROLYTE
FOR
QUASI-SOLID
STATE
QDSSCS
324
10.6.5
DEXTRAN-BASED
HYDROGEL
POLYSULFIDE
ELECTROLYTE
FOR
QUASI-SOLID-STATE
QDSSCS
325
10.6.6
CARBON
DOTS
ENHANCE
LIGHT
HARVESTING
IN
A
SOLID-STATE
QDSSC
326
CONTENTS
10.6.7
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
BASED
ON
OLIGOMER
GEL
ELECTROLYTES
326
10.6.8
QDSSCS
WITH
THIOLATE/DISULFIDE
REDOX
COUPLE
AND
SUCCINONITRILE-BASED
ELECTROLYTE
327
10.6.9
GRAPHENE-IMPLANTED
POLYACRYLAMIDE
GEL
ELECTROLYTES
FOR
QDSSCS
328
10.6.10
PEO
AND
PVDF-BASED
ELECTROLYTE
FOR
SOLID-STATE
ELECTROLYTES
FOR
QDSSCS
329
10.6.11
HYDROXYSTEARIC
ACID-BASED
POLYSULFIDE
HYDROGEL
ELECTROLYTE
FOR
CDS/CDSE
QDSSCS
329
10.6.12
QDSSCS
BASED
ON
A
SODIUM
POLYACRYLATE
POLYELECTROLYTE
330
10.7
SUMMARY
331
REFERENCES
334
11
POLYMER
ELECTROLYTES
FOR
PEROVSKITE
SOLAR
CELL
AND
CHALLENGES
339
RAHUL
SINGH,
HEE-WOO
RHEE,
BHASKAR
BHATTACHARYA,
AND
PRAMOD
K.
SINGH
11.1
INTRODUCTION
339
11.2
PRINCIPLE
AND
WORKING
PROCESS
OF
PEROVSKITE
SOLAR
CELL
341
11.2.1
PEROVSKITE
MATERIALS
342
11.2.2
PEROVSKITE
STRUCTURE
344
11.2.3
SYNTHESIS
OF
PEROVSKITE
349
11.2.3.1
SOLUTION-PROCESSED
METHOD
349
11.2.3.2
HOT
CASTING TECHNIQUE
352
11.2.3.3
VAPOR
DEPOSITION
METHOD
352
11.2.3.4
THERMAL
EVAPORATION
TECHNIQUE
352
11.3
POLYMER
ELECTROLYTE
FOR
PEROVSKITE
SOLAR
CELL
354
11.3.1
DEVICE
FABRICATION
354
11.3.2
HOLE
TRANSPORT
LAYER
355
11.4
PERFORMANCE
CHARACTERISTICS
355
11.5
CHALLENGES
AND
IMPROVEMENT
356
11.6
FUTURE
TRENDS
357
11.7
CONCLUSION
358
COMPETING
INTERESTS
358
ACKNOWLEDGMENTS
358
REFERENCES
358
12
POLYMER
ELECTROLYTES
FOR
ELECTROCHROMIC
WINDOWS
365
LI
NA
SIM
AND
AGNIESZKA
PAWLICKA
12.1
INTRODUCTION
365
12.2
PRINCIPLES
AND
WORKING
PROCESS
OF
ELECTROCHROMIC
WINDOW
366
12.3
TYPES
OF
ELECTROCHROMIC
ELECTRODES
367
12.4
MECHANISM
OF
EC
W
368
12.5
POLYMER
ELECTROLYTES
FOR
ELECTROCHROMIC
WINDOWS
369
12.5.1
BACKGROUND
369
12.5.2
CRITERIA
OF
POLYMER ELECTROLYTES
AND
ELECTROCHROMIC
DEVICE
369
12.5.3
TYPES
OF
POLYMER
ELECTROLYTES
USED
IN
ECWS
370
CONTENTS
XI
12.5.3.1
SOLID
POLYMER
ELECTROLYTES
(SPES)
370
12.5.3.2
GEL
POLYMER
ELECTROLYTES
(GPES)
374
12.5.3.3
COMPOSITE
POLYMER
ELECTROLYTE
383
12.6
PRESENT
ECDS
USES/APPLICATIONS
385
REFERENCES
385
INDEX
391 |
| adam_txt |
CONTENTS
PREFACE
XIII
1
POLYMER
ELECTROLYTES:
STATE
OF
THE
ART
1
MASASHI
KOTOBUKI
1.1
1.2
1.3
1.4
1.5
INTRODUCTION
1
SOLID
POLYMER
ELECTROLYTE
4
GEL
POLYMER
ELECTROLYTE
8
COMPOSITE
POLYMER
ELECTROLYTE
12
SUMMARY
17
REFERENCES
17
2
IMPEDANCE
SPECTROSCOPY
IN
POLYMER
ELECTROLYTE
CHARACTERIZATION
23
MOHAMED
ABDUL
CAREEM,
IKHWAN
SYAFIQ
MOHD
NOOR,
AND
ABDUL
K.
AROF
2.1
2.2
2.2.1
2.2.2
2.2.3
2.2.4
2.2.5
2.2.5.1
2.2.5.2
2.2.53
2.2.5A
2.2.5.5
2.2.5.6
2.2.6
2.2.7
2.2.7.1
2.2.7.2
2.2.73
2.2.7
A
2.2.73
2.2.73
INTRODUCTION
23
IS:
PRINCIPAL
OPERATION
AND
EXPERIMENTAL
SETUP
23
BASIC
PRINCIPLES
OF
IMPEDANCE
SPECTROSCOPY
23
IMPEDANCE
SPECTROSCOPY
(IS)
TECHNIQUE
25
ELECTRICAL
CONDUCTIVITY
OF
A
SAMPLE
26
CONDITIONS
NECESSARY
FOR
IS
MEASUREMENTS
26
IMPEDANCE
PLOTS
OF
SIMPLE
CIRCUITS
28
A
PURE
RESISTANCE,
R
28
A
PURE
CAPACITANCE,
C
28
R
AND
C
CONNECTED
IN
SERIES
29
R
AND
C
CONNECTED
IN
PARALLEL
30
COMBINED
SERIES
AND
PARALLEL
CIRCUITS
31
IMPEDANCE
SPECTRA
OF
MODEL
ELECTROLYTE
SYSTEMS
32
POSSIBLE
CONDUCTION
PROCESSES
IN
A
SOLID
ELECTROLYTE
35
IMPEDANCE
SPECTRA
OF
REAL
SYSTEMS
36
THE
CONSTANT
PHASE
ELEMENT
(CPE)
37
EQUIVALENT
CIRCUITS
FOR
REAL
SYSTEMS
37
ELECTROLYTE/ELECTRODE
(E/E)
INTERFACE
39
DIFFUSION
IMPEDANCE
OR
MASS
TRANSPORT
IMPEDANCE
39
WARBURG IMPEDANCE
40
EQUIVALENT
CIRCUIT
REPRESENTATION
OF
AN
E/E
SYSTEM
41
VI
CONTENTS
2.2.8
IMPEDANCE-RELATED
FUNCTIONS
42
2.2.8.1
IMMITTANCE
FUNCTIONS
43
2.2.5.2
RELATIONSHIPS
BETWEEN
IMMITTANCE
FUNCTIONS
43
2.2.8.Z
IMMITTANCE
PLOTS
43
2.2.8.4
CHOICE
BETWEEN
IMMITTANCE
FUNCTIONS
46
2.2.9
EXPERIMENTAL
SETUP
46
2.2.9.1
SAMPLE
AND
CELL
ARRANGEMENT
47
2.2.9.2
OTHER
PRACTICAL
DETAILS
AND
PRECAUTIONS
48
2.3
IS:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
49
2.3.1
DETERMINATION
OF
BULK
RESISTANCE
FROM
THE
IMPEDANCE
PLOTS
49
2.3.2
IMPEDANCE
DATA
INTERPRETATION
AND
ANALYSIS
50
2.3.2.1
INTERPRETATION
OF
IMPEDANCE
DATA
51
2.3.2.2
CHOICE
OF
EQUIVALENT
CIRCUITS
51
2.3.3
DETERMINATION
OF
TRANSPORT
PARAMETERS
FROM
IMPEDANCE
DATA
53
2.3.3.1
BANDARA-MELLANDER
(B-M)
METHOD
53
2.3.3.2
NYQUIST
PLOT
FITTING
METHOD
57
2.3.4
SOME
EXPERIMENTAL
RESULTS
AND
ANALYSIS
59
2.3.4.1
CONDUCTIVITY
CALCULATION
OF
IMPEDANCE
PLOTS
59
2.3.4.2
CONDUCTIVITY
DETERMINATION
FROM
FITTING
EQUIVALENT
CIRCUIT
60
2.3.4.3
EVALUATION
OF
TRANSPORT
PROPERTIES
USING
NYQUIST
PLOT
FITTING
METHOD
60
2.4
CONCLUSIONS
63
REFERENCES
64
3
THERMAL
CHARACTERIZATION
OF
POLYMER
ELECTROLYTES
65
APARNA
THANKAPPAN,
MANUEL
STEPHAN,
AND
SABU
THOMAS
3.1
INTRODUCTION
65
3.2
TGA:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
67
3.3
DSC:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
75
3.4
DSC:
EXPERIMENTAL
ERRORS
AND
SUGGESTION
FOR
IMPROVEMENT
82
3.4.1
TRANSITION(S)
AT
0
C
83
3.4.2
APPARENT
MELTING
AT
T
G
83
3.4.3
EXOTHERMIC
PEAKS
BELOW
DECOMPOSITION
TEMPERATURE WHILE
HEATING
84
3.4.4
BASELINE
SHIFT
AFTER ENDOTHERMIC
OR
EXOTHERMIC
PEAKS
86
3.4.5
SHARP
ENDOTHERMIC
PEAKS
DURING
EXOTHERMIC
REACTIONS
86
3.5
DMA:
EXPERIMENTAL
DATA
INTERPRETATION
AND
ANALYSIS
87
REFERENCES
91
4
ENERGY
IN
A
PORTABLE
WORLD
93
NOOR
SYUHADA
ZAKUAN,
WOO
HAWJIUNN,
AND
TAN
WINIE
4.1
INTRODUCTION
93
4.2
HISTORY
DEVELOPMENT
OF
MOBILE
POWER
94
4.3
CARING
FOR
MOBILE
POWER
FROM
BIRTH
TO
RETIREMENT
102
4.3.1
GETTING
THE
MOST
OUT
OF
THE
PRIMARY
BATTERIES
103
4.3.2
GETTING
THE
MOST
OUT
OF
THE
LEAD-ACID
BATTERIES
103
4.3.3
GETTING
THE
MOST
OUT
OF
THE
NICKEL-BASED
BATTERIES
104
CONTENTS
VII
4.3.4
4.4
4.4.1
4.4.2
GETTING
THE
MOST
OUT
OF
THE
LITHIUM
ION
BATTERIES
105
MOBILE
POWER
RECYCLING
106
RECYCLING
PRIMARY
BATTERIES
106
RECYCLING
RECHARGEABLE
BATTERIES
109
ACKNOWLEDGMENTS
111
REFERENCES
111
5
INSIGHT
ON
POLYMER
ELECTROLYTES
FOR
ELECTROCHEMICAL
DEVICES
APPLICATIONS
113
MARIA
MANUELA
SILVA
,
VERONICA
DE
ZEA
BERMUDEZ
,
AND
AGNIESZKA
PAWLICKA
5.1
5.2
5.3
5.3.1
5.3.2
5.3.3
5.3.4
5.3.5
5.3.6
5.3.7
INTRODUCTION
113
THEORY:
IONIC
CONDUCTIVITY
117
APPLICATIONS
120
CONVENTIONAL
BATTERIES
AND
TRANSIENT
BATTERIES
120
FUEL
CELLS
123
SUPERCAPACITORS
124
ELECTROCHROMIC
DEVICES
125
DYE-SENSITIZED
SOLAR
CELLS
127
SENSORS
128
LIGHT-EMITTING
ELECTROCHEMICAL
CELLS
128
REFERENCES
129
6
POLYMER
ELECTROLYTE
APPLICATION
IN
ELECTROCHEMICAL
DEVICES
137
SITI
NOR
FARHANA
YUSUF
AND
ABDUL
K.
AROF
6.1
6.2
6.3
6.3.1
6.3.2
6.3.2.1
6.3.2.2
6.4
6.4.1
6.4.2
6.4.3
6.4.4
6.4.5
6.4.6
6.4.6.1
6.5
6.5.1
6.5.2
6.5.2.1
6.5.2.2
6.5.2.3
INTRODUCTION
137
PROPERTIES
OF
POLYMER
ELECTROLYTES
(PES)
137
REVIEW
OF
POLYMER
ELECTROLYTES
138
DRY
SOLID
POLYMER
ELECTROLYTES
(SPES)
138
GEL
POLYMER
ELECTROLYTES
(GPES)
141
IONIC
LIQUID
GEL
POLYMER
ELECTROLYTES
(ILGPES)
144
GEL
POLYMER
ELECTROLYTES WITH
NANOMATERIALS
146
APPLICATION
OF
PES
IN
ELECTROCHEMICAL
DEVICES
148
DYE-SENSITIZED
SOLAR
CELLS
(DSSCS)
148
LITHIUM
ION
BATTERIES
150
ELECTRICAL
DOUBLE
LAYER
CAPACITORS
(EDLCS)
152
POLYMER
ELECTROLYTE
FUEL
CELLS
156
ELECTROCHROMIC
WINDOWS
163
ELECTROCHROMIC
MATERIALS
164
TRANSITION METAL
OXIDES
164
CHALLENGES
AND
IMPROVEMENTS
167
IN
ELECTROLYTES
167
IN
DEVICES
169
DSSCS
169
FUEL
CELL
170
BATTERIES
171
VIII
CONTENTS
6.5.2.4
6.5.2.5
6.6
6.6.1
6.6.2
6.6.3
6.6.4
EDLCS
172
ELECTROCHROMIC
WINDOWS
(ECWS)
172
FUTURE
ASPECTS
173
ELECTROCHROMIC
WINDOWS
173
BATTERIES
173
DSSCS
173
FUEL
CELLS
174
REFERENCES
175
7
POLYMER
ELECTROLYTES
FOR
LITHIUM
ION
BATTERIES
AND
CHALLENGES:
PART
1
187
SHISHUO
LIANG
,
WENQI
YAN,
MINXIA
LI,
YUSONG
ZHU,
LIJUN
FU,
AND
YUPING
WU
7.1
7.2
7.2.1
7.2.2
7.3
7.4
7.5
INTRODUCTION
187
CLASSIFICATION
OF
POLYMER
ELECTROLYTES
188
SOLID
POLYMER
ELECTROLYTES
(SPES)
188
GEL
POLYMER
ELECTROLYTES
(GPES)
190
PERFORMANCE
AND
IMPROVEMENTS
190
APPLICATION
AND
PERFORMANCE
OF
POLYMER
LITHIUM
ION
BATTERIES
194
FUTURE
TRENDS
195
ACKNOWLEDGMENTS
196
REFERENCES
197
8
POLYMER
ELECTROLYTES
FOR
LITHIUM
ION
BATTERIES
AND
CHALLENGES:
PART
II
201
SITI
NOR
FARHANA
YUSUF
AND
ABDUL
K.
AROF
8.1
8.2
8.2.1
8.2.2
8.2.3
8.2.4
8.3
8.4
8.5
8.6
INTRODUCTION
201
STRUCTURE
AND
OPERATION
OF
LITHIUM
ION
BATTERIES
202
ANODE
MATERIALS
204
CATHODE
MATERIALS
205
ELECTROLYTES
206
LI
+
ION
TRANSPORT
IN
POLYMER
ELECTROLYTES
206
POLYMER
ELECTROLYTE
FOR
LITHIUM
ION
BATTERIES
207
PERFORMANCE
CHARACTERISTICS
OF
LITHIUM
ION
BATTERIES
216
CHALLENGES
AND
IMPROVEMENT
218
FUTURE
TRENDS
219
REFERENCES
221
9
POLYMER
ELECTROLYTES
FOR
SUPERCAPACITOR
AND
CHALLENGES
231
SAFIR
AHMAD
HASHMI,
NITISH
YADAV,
AND
MANOJ
KUMAR
SINGH
9.1
9.2
9.2.1
9.2.2
9.2.2.1
9.2.2.2
9.2.2.3
INTRODUCTION
231
PRINCIPLE
AND
WORKING
PROCESS
OF
SUPERCAPACITORS
232
CHARGE
STORAGE
MECHANISMS
IN
EDLCS
233
CHARGE
STORAGE
MECHANISMS
IN
PSEUDOCAPACITORS
236
UNDERPOTENTIAL
DEPOSITION
237
REDOX
PSEUDOCAPACITANCE
237
INTERCALATION
PSEUDOCAPACITANCE
238
CONTENTS
I
IX
9.3
ELECTROLYTES
FOR
SUPERCAPACITORS
239
9.3.1
LIQUID
ELECTROLYTES
239
9.3.2
POLYMER-BASED
ELECTROLYTES
241
9.3.2.1
SOLVENT-FREE
SOLID
POLYMER
ELECTROLYTES
(SPES)
242
9.3.2.2
GEL
POLYMER
ELECTROLYTES
(GPES)
242
9.3.2.3
POROUS
POLYMER
ELECTROLYTES
252
9.4
PERFORMANCE
CHARACTERISTICS
255
9.4.1
ELECTRODE
CHARACTERIZATION
255
9.4.2
CHARACTERIZATION
OF
SUPERCAPACITORS
258
9.4.2.1
ELECTROCHEMICAL
CHARACTERIZATION
TECHNIQUES
AND
IMPORTANT
PARAMETERS
258
9.4.2.2
PERFORMANCE
OF
POLYMER
ELECTROLYTE-BASED
SUPERCAPACITORS:
SOME
CASE
STUDIES
262
9.5
CHALLENGES
TO
SOLID-STATE
SUPERCAPACITORS
AND
FUTURE
SCOPE
OF
IMPROVEMENT
284
REFERENCES
285
10
POLYMER
ELECTROLYTES
FOR
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
(QDSSCS)
AND
CHALLENGES
299
T.M.WJ.
BANDARA
AND
J.
L.
RATNASEKERA
10.1
DEMAND AND
SUPPLY
OF
ENERGY
299
10.2
THE
SUN
AS
A
POTENTIAL
ENERGY
RESOURCE
300
10.3
ADVANTAGES
OF
SOLAR
CELLS
301
10.4
PHOTO-ELECTROCHEMICAL
SOLAR
CELLS
301
10.4.1
GENERAL
MECHANISM
OF
A
PHOTO-ELECTROCHEMICAL
SOLAR
CELL
303
10.4.2
MECHANISM
OF
A
PHOTO-ELECTROCHEMICAL
SOLAR
CELL
304
10.4.3
SEMICONDUCTOR/POLYMER
ELECTROLYTE
JUNCTION
308
10.4.4
PHOTO-SENSITIZATION
OF
WIDE
BANDGAP
SEMICONDUCTORS
308
10.5
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
(QDSSCS)
310
10.5.1
QUANTUM
DOTS
310
10.5.2
MECHANISM
OF
A
QDSSC
313
10.5.3
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
(QDSSCS)
314
10.5.4
POLYMER
ELECTROLYTES
FOR
QDSSCS
317
10.6
PERFORMANCES
OF
DIFFERENT
QDSSCS
ASSEMBLIES
BASED
ON
POLYMER
ELECTROLYTES
318
10.6.1
QUASI-SOLID-STATE
QDSSCS
BASED
ON
POLYACRYLAMIDE
HYDROGEL
ELECTROLYTES
318
10.6.1.1
HYDROGEL
ELECTROLYTE
WITH
POLYACRYLAMIDE
318
10.6.2
CDS-SENSITIZED
CELL
WITH
PAN
AND
PVDF
ELECTROLYTES
319
10.6.3
ZNO-BASED
QUASI-SOLID
QDSSCS
SENSITIZED
WITH
CDS
AND
CDSE
323
10.6.3.1
QUASI-SOLID-STATE
ELECTROLYTE
PREPARATION
324
10.6.4
NATURAL
POLYSACCHARIDE
THIN
FILM-BASED
ELECTROLYTE
FOR
QUASI-SOLID
STATE
QDSSCS
324
10.6.5
DEXTRAN-BASED
HYDROGEL
POLYSULFIDE
ELECTROLYTE
FOR
QUASI-SOLID-STATE
QDSSCS
325
10.6.6
CARBON
DOTS
ENHANCE
LIGHT
HARVESTING
IN
A
SOLID-STATE
QDSSC
326
CONTENTS
10.6.7
QUANTUM
DOT-SENSITIZED
SOLAR
CELLS
BASED
ON
OLIGOMER
GEL
ELECTROLYTES
326
10.6.8
QDSSCS
WITH
THIOLATE/DISULFIDE
REDOX
COUPLE
AND
SUCCINONITRILE-BASED
ELECTROLYTE
327
10.6.9
GRAPHENE-IMPLANTED
POLYACRYLAMIDE
GEL
ELECTROLYTES
FOR
QDSSCS
328
10.6.10
PEO
AND
PVDF-BASED
ELECTROLYTE
FOR
SOLID-STATE
ELECTROLYTES
FOR
QDSSCS
329
10.6.11
HYDROXYSTEARIC
ACID-BASED
POLYSULFIDE
HYDROGEL
ELECTROLYTE
FOR
CDS/CDSE
QDSSCS
329
10.6.12
QDSSCS
BASED
ON
A
SODIUM
POLYACRYLATE
POLYELECTROLYTE
330
10.7
SUMMARY
331
REFERENCES
334
11
POLYMER
ELECTROLYTES
FOR
PEROVSKITE
SOLAR
CELL
AND
CHALLENGES
339
RAHUL
SINGH,
HEE-WOO
RHEE,
BHASKAR
BHATTACHARYA,
AND
PRAMOD
K.
SINGH
11.1
INTRODUCTION
339
11.2
PRINCIPLE
AND
WORKING
PROCESS
OF
PEROVSKITE
SOLAR
CELL
341
11.2.1
PEROVSKITE
MATERIALS
342
11.2.2
PEROVSKITE
STRUCTURE
344
11.2.3
SYNTHESIS
OF
PEROVSKITE
349
11.2.3.1
SOLUTION-PROCESSED
METHOD
349
11.2.3.2
HOT
CASTING TECHNIQUE
352
11.2.3.3
VAPOR
DEPOSITION
METHOD
352
11.2.3.4
THERMAL
EVAPORATION
TECHNIQUE
352
11.3
POLYMER
ELECTROLYTE
FOR
PEROVSKITE
SOLAR
CELL
354
11.3.1
DEVICE
FABRICATION
354
11.3.2
HOLE
TRANSPORT
LAYER
355
11.4
PERFORMANCE
CHARACTERISTICS
355
11.5
CHALLENGES
AND
IMPROVEMENT
356
11.6
FUTURE
TRENDS
357
11.7
CONCLUSION
358
COMPETING
INTERESTS
358
ACKNOWLEDGMENTS
358
REFERENCES
358
12
POLYMER
ELECTROLYTES
FOR
ELECTROCHROMIC
WINDOWS
365
LI
NA
SIM
AND
AGNIESZKA
PAWLICKA
12.1
INTRODUCTION
365
12.2
PRINCIPLES
AND
WORKING
PROCESS
OF
ELECTROCHROMIC
WINDOW
366
12.3
TYPES
OF
ELECTROCHROMIC
ELECTRODES
367
12.4
MECHANISM
OF
EC
W
368
12.5
POLYMER
ELECTROLYTES
FOR
ELECTROCHROMIC
WINDOWS
369
12.5.1
BACKGROUND
369
12.5.2
CRITERIA
OF
POLYMER ELECTROLYTES
AND
ELECTROCHROMIC
DEVICE
369
12.5.3
TYPES
OF
POLYMER
ELECTROLYTES
USED
IN
ECWS
370
CONTENTS
XI
12.5.3.1
SOLID
POLYMER
ELECTROLYTES
(SPES)
370
12.5.3.2
GEL
POLYMER
ELECTROLYTES
(GPES)
374
12.5.3.3
COMPOSITE
POLYMER
ELECTROLYTE
383
12.6
PRESENT
ECDS
USES/APPLICATIONS
385
REFERENCES
385
INDEX
391 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author2 | Winie, Tan Arof, Abdul K. Thomas, Sabu 1960- |
| author2_role | edt edt edt |
| author2_variant | t w tw a k a ak aka s t st |
| author_GND | (DE-588)1204062870 (DE-588)1021317551 |
| author_facet | Winie, Tan Arof, Abdul K. Thomas, Sabu 1960- |
| building | Verbundindex |
| bvnumber | BV046879523 |
| classification_rvk | UV 5200 |
| ctrlnum | (OCoLC)1107432410 (DE-599)DNB1189167581 |
| dewey-full | 541.372 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 541 - Physical chemistry |
| dewey-raw | 541.372 |
| dewey-search | 541.372 |
| dewey-sort | 3541.372 |
| dewey-tens | 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie Physik |
| discipline_str_mv | Chemie / Pharmazie Physik |
| format | Book |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV046879523 |
| illustrated | Illustrated |
| index_date | 2024-07-03T15:17:51Z |
| indexdate | 2024-11-04T13:01:48Z |
| institution | BVB |
| institution_GND | (DE-588)16179388-5 |
| isbn | 9783527342006 3527342001 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032289553 |
| oclc_num | 1107432410 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | xiii, 401 Seiten Illustrationen, Diagramme 25 cm, 916 g |
| publishDate | 2020 |
| publishDateSearch | 2020 |
| publishDateSort | 2020 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Polymer electrolytes characterization techniques and energy applications edited by Tan Winie, Abdul K. Arof, and Sabu Thomas Weinheim, Germany Wiley-VCH [2020] xiii, 401 Seiten Illustrationen, Diagramme 25 cm, 916 g txt rdacontent n rdamedia nc rdacarrier Polyelektrolyt (DE-588)4175165-6 gnd rswk-swf Charakterisierung von Polymeren Chemie Chemistry Components & Devices Electrical & Electronics Engineering Electrochemistry Elektrochemie Elektrolyte Elektrotechnik u. Elektronik Komponenten u. Bauelemente Materialien f. Energiesysteme Materials for Energy Systems Materials Science Materialwissenschaften Polymer Characterization Polymer Science & Technology Polymere Polymerwissenschaft Polymerwissenschaft u. -technologie CHA0: Elektrochemie EE60: Komponenten u. Bauelemente MSL0: Materialien f. Energiesysteme PY40: Charakterisierung von Polymeren (DE-588)4143413-4 Aufsatzsammlung gnd-content Polyelektrolyt (DE-588)4175165-6 s DE-604 Winie, Tan (DE-588)1204062870 edt Arof, Abdul K. edt Thomas, Sabu 1960- (DE-588)1021317551 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-80543-3 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-80546-4 Erscheint auch als Online-Ausgabe, oBook 978-3-527-80545-7 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34200-6/ B:DE-101 application/pdf https://d-nb.info/1189167581/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032289553&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Polymer electrolytes characterization techniques and energy applications Polyelektrolyt (DE-588)4175165-6 gnd |
| subject_GND | (DE-588)4175165-6 (DE-588)4143413-4 |
| title | Polymer electrolytes characterization techniques and energy applications |
| title_auth | Polymer electrolytes characterization techniques and energy applications |
| title_exact_search | Polymer electrolytes characterization techniques and energy applications |
| title_exact_search_txtP | Polymer electrolytes characterization techniques and energy applications |
| title_full | Polymer electrolytes characterization techniques and energy applications edited by Tan Winie, Abdul K. Arof, and Sabu Thomas |
| title_fullStr | Polymer electrolytes characterization techniques and energy applications edited by Tan Winie, Abdul K. Arof, and Sabu Thomas |
| title_full_unstemmed | Polymer electrolytes characterization techniques and energy applications edited by Tan Winie, Abdul K. Arof, and Sabu Thomas |
| title_short | Polymer electrolytes |
| title_sort | polymer electrolytes characterization techniques and energy applications |
| title_sub | characterization techniques and energy applications |
| topic | Polyelektrolyt (DE-588)4175165-6 gnd |
| topic_facet | Polyelektrolyt Aufsatzsammlung |
| url | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34200-6/ https://d-nb.info/1189167581/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032289553&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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Inhaltsverzeichnis