Sample preparation with nanomaterials: next generation techniques and applications
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Format: | Buch |
Sprache: | English |
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Wiley-VCH
[2021]
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Beschreibung: | x, 294 Seiten Illustrationen |
ISBN: | 9783527338177 |
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MARC
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016 | 7 | |a 1217132023 |2 DE-101 | |
020 | |a 9783527338177 |c hbk. |9 978-3-527-33817-7 | ||
035 | |a (OCoLC)1252699058 | ||
035 | |a (DE-599)BVBBV047280953 | ||
040 | |a DE-604 |b ger |e rda | ||
041 | 0 | |a eng | |
044 | |a gw |c XA-DE-BW | ||
049 | |a DE-11 |a DE-703 | ||
084 | |a VE 9850 |0 (DE-625)147163:253 |2 rvk | ||
084 | |a ZM 7028 |0 (DE-625)157103: |2 rvk | ||
084 | |a ZN 3700 |0 (DE-625)157333: |2 rvk | ||
100 | 1 | |a Hussain, Chaudhery Mustansar |d 1975- |e Verfasser |0 (DE-588)1124182330 |4 aut | |
245 | 1 | 0 | |a Sample preparation with nanomaterials |b next generation techniques and applications |c Dr. Chaudhery Mustansar Hussain, Dr. Rüstem Keçili, Dr. Chaudhery Ghazanfar Hussain |
264 | 1 | |a Weinheim |b Wiley-VCH |c [2021] | |
264 | 4 | |c © 2021 | |
300 | |a x, 294 Seiten |b Illustrationen | ||
336 | |b txt |2 rdacontent | ||
337 | |b n |2 rdamedia | ||
338 | |b nc |2 rdacarrier | ||
650 | 0 | 7 | |a Probenvorbereitung |0 (DE-588)4588977-6 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Nanostrukturiertes Material |0 (DE-588)4342626-8 |2 gnd |9 rswk-swf |
689 | 0 | 0 | |a Probenvorbereitung |0 (DE-588)4588977-6 |D s |
689 | 0 | 1 | |a Nanostrukturiertes Material |0 (DE-588)4342626-8 |D s |
689 | 0 | |5 DE-604 | |
700 | 1 | |a Keçili, Rüstem |d 1980- |e Verfasser |0 (DE-588)1030131139 |4 aut | |
700 | 1 | |a Hussain, Chaudhery Ghazanfar |e Verfasser |0 (DE-588)1235177718 |4 aut | |
776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, PDF |z 978-3-527-68560-8 |
776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, EPUB |z 978-3-527-68561-5 |
776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-3-527-68562-2 |
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=032684492&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
999 | |a oai:aleph.bib-bvb.de:BVB01-032684492 |
Datensatz im Suchindex
_version_ | 1804182447486664704 |
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adam_text | CONTENTS
1
NANOMATERIALS
(NMS)
IN
ANALYTICAL
SCIENCES
1
1.1
INTRODUCTION
1
1.2
TYPES
OF
NMS
2
1.2.1
GRAPHENE
2
1.2.2
CARBON
NANOTUBES
(CNTS)
3
1.2.3
FULLERENES
(FULS)
4
1.2.4
INORGANIC
NANOPARTICLES
6
1.2.4.1
GOLD
AND
SILVER
NANOPARTICLES
6
1.2.4.2
TITANIUM
NANOPARTICLES
7
1.2.4.3
SILICA
NANOPARTICLES
7
1.2.5
MAGNETIC
NANOPARTICLES
7
1.3
APPLICATIONS
OF
NMS
8
1.3.1
NMS
IN
SEPARATION
PROCESSES
8
1.3.2
NMS
IN
BIOMEDICAL
APPLICATIONS
8
1.3.3
NMS
IN
SENSOR
PLATFORMS
12
1.4
CONCLUSIONS
16
REFERENCES
19
2
SPECIAL
PROPERTIES
OF
NANOMATERIALS
(NMS)
FOR
SAMPLE
PREPARATION
27
2.1
INTRODUCTION
27
2.2
MECHANICAL
PROPERTIES
OF
NMS
28
2.2.1
HARDNESS
AND
STRENGTH
28
2.2.2
DUCTILITY
30
2.2.3
APPLICATIONS
OF
MECHANICAL
PROPERTIES
32
2.3
THERMAL
PROPERTIES
OF
NMS
33
2.4
ELECTRICAL
PROPERTIES
OF
NMS
35
2.5
OPTICAL
PROPERTIES
OF
NMS
36
2.6
MAGNETIC
PROPERTIES
OF
NMS
37
2.7
ADSORPTION
PROPERTIES
OF
NMS
38
2.8
CONCLUSIONS
39
REFERENCES
40
VI
CONTENTS
3
ADSORPTION
MECHANISM
ON
NANOMATERIALS
(NMS)
47
3.1
INTRODUCTION
47
3.2
ADSORPTION
PROCESS
48
3.2.1
ADSORPTION
ISOTHERMS
48
3.2.1.1
LANGMUIR
ISOTHERM
50
3.2.1.2
FREUNDLICH
ISOTHERM
50
3.2.1.3
TEMKIN
ISOTHERM
50
3.2.1.4
DUBININ-RADUSHKEVICH
MODEL
51
3.2.1.5
HARKINS-JURA
AND
HALSEY
ISOTHERMS
51
3.2.1.6
REDLICH-PETERSON
ISOTHERM
51
3.2.1.7
BET
(BRUNAUER,
EMMETT,
AND
TELLER)
ISOTHERM
52
3.2.2
ADSORPTION
KINETICS
AND
THERMODYNAMICS
52
3.2.2.1
PSEUDO-FIRST-ORDER
KINETICS
52
3.2.2.2
PSEUDO-SECOND-ORDER
KINETICS
53
3.2.2.3
INTRAPARTICLE
DIFFUSION
MODEL
53
3.2.2.4
THERMODYNAMIC
STUDY
53
3.2.3
ADSORPTION
PROCESS
ON
NANOPARTICLES
54
3.2.3.1
SILVER
NANOPARTICLES
54
3.2.3.2
GOLD
NANOPARTICLES
55
3.2.3.3
ZINC
OXIDE
NANOPARTICLES
56
3.2.3.4
MAGNETIC
FE
3
O
4
NANOPARTICLES
56
3.2.4
ADSORPTION
PROCESS
ON
CARBON
NANOMATERIALS
58
3.2.4.1
ACTIVATED
CARBON
58
3.2.4.2
CARBON
NANOTUBES
(CNTS)
59
3.2.4.3
GRAPHENE
OXIDE
(GO)
60
3.3
CONCLUSIONS
AND
FUTURE
PERSPECTIVE
63
REFERENCES
63
4
CARBON
NANOMATERIALS
(CNMS)
AS
ADSORBENTS
FOR
SAMPLE
PREPARATION
71
4.1
INTRODUCTION
71
4.2
CARBON
NANOMATERIALS
(CNMS)
72
4.2.1
CARBON
NANOTUBES
(CNTS)
72
4.2.2
GRAPHENE
73
4.2.3
FULLERENES
(FULS)
75
4.3
ADSORPTION
ON
CNMS
76
4.4
APPLICATIONS
OF
CNMS,
77
4.4.1
EXTRACTION
AND
SEPARATION
APPLICATIONS
77
4.4.2
CHROMATOGRAPHIC
APPLICATIONS
80
4.4.2.1
CHROMATOGRAPHIC
STATIONARY
PHASES
HAVING
CNTS
81
4.4.2.2
CHROMATOGRAPHIC
STATIONARY
PHASES
HAVING
FULS
83
4.5
CONCLUSIONS
84
REFERENCES
84
CONTENTS
VII
5
5.1
5.2
5.3
5.3.1
5.3.2
5.3.3
5.4
5.5
5.6
MEMBRANE
APPLICATIONS
OF
NANOMATERIALS
(NMS)
93
INTRODUCTION
93
TRADITIONAL
MEMBRANES
93
CARBON
NANOMATERIAL-BASED
MEMBRANES
94
GRAPHENE-BASED
MEMBRANES
94
CARBON
NANO
TUBE-BASED
MEMBRANES
97
FULLERENE-BASED
MEMBRANES
100
NANOPARTICLE-BASED
MEMBRANES
101
MOLECULARLY
IMPRINTED
POLYMER
(MLP)-BASED
MEMBRANES
102
CONCLUSIONS
105
REFERENCES
108
6
SURFACE-ENHANCED
RAMAN
SPECTROSCOPY
(SERS)
WITH
NANOMATERIALS
(NMS)
117
6.1
6.2
6.3
6.3.1
6.3.2
6.4
6.5
6.5.1
6.5.2
6.6
6.6.1
6.6.2
6.6.3
6.6.4
6.7
6.7.1
6.7.2
6.7.2.1
6.7.2.2
6.7.2.3
6.8
INTRODUCTION
117
THEORY
OF
SERS
118
SERS
MECHANISMS
118
ELECTROMAGNETIC
ENHANCEMENT
119
CHEMICAL
ENHANCEMENT
120
DETERMINATION
OF
SERS
ENHANCEMENT
FACTOR
121
SELECTION
RULES
121
IMAGE
FIELD
MODEL
121
ELECTROMAGNETIC
FIELD
MODEL
122
FABRICATIONS
OF
SERS
SUBSTRATES
123
TEMPLATE-ASSISTED
FABRICATION
124
HYBRID
FABRICATION
124
FABRICATION
BY
USING
COLLOIDS
124
DIRECT
DEPOSITION
125
APPLICATIONS
OF
SERS
125
SERS-BASED
SEPARATION
APPLICATIONS
125
SERS-BASED
SENSOR
APPLICATIONS
126
ENVIRONMENTAL
ANALYSIS
126
FORENSIC
ANALYSIS
129
BIOLOGICAL
APPLICATIONS
131
CONCLUSIONS
133
REFERENCES
133
7
7.1
7.2
7.2.1
7.2.2
7.3
NANOMATERIALS
(NMS)
FOR
BIOLOGICAL
SAMPLE
PREPARATIONS
147
INTRODUCTION
147
THE
USE
OF
NMS
IN
DIAGNOSTIC
PLATFORMS
148
THE
OPTIMIZATION
OF
NMS
IN
DIAGNOSTIC
PLATFORMS
148
BIOFUNCTIONALIZATION
OF
NMS
IN
DIAGNOSTIC
PLATFORMS
149
NMS-BASED
LAB-ON-A-CHIP
(LOC)
PLATFORMS
150
VIII
CONTENTS
7.3.1
PAPER-BASED
LOC
PLATFORMS
152
7.3.2
CENTRIFUGAL
LOC
PLATFORMS
152
7.3.3
DROPLET-BASED
LOC
PLATFORMS
152
7.3.4
DIGITAL
LOC
PLATFORMS
152
73.5
SURFACE
ACOUSTIC
WAVE-BASED
LOC
PLATFORMS
152
73.6
LOC
PLATFORMS
FOR
BIOLOGICAL
APPLICATIONS
153
7
A
BIOMEDICAL
APPLICATIONS
OF
NMS
155
7.5
SENSOR
APPLICATIONS
OF
NMS
157
7.6
CONCLUSIONS
162
REFERENCES
162
8
MAGNETIC
NANOMATERIALS
FOR
SAMPLE
PREPARATION
173
8.1
INTRODUCTION
173
8.2
SYNTHESIS
OF
MAGNETIC
NANOPARTICLES
174
8.2.1
THERMAL
DECOMPOSITION
TECHNIQUE
174
8.2.2
COPRECIPITATION
TECHNIQUE
175
8.2.3
SOL-GEL
SYNTHESIS
175
8.2.4
HYDROTHERMAL
SYNTHESIS
176
8.2.5
MICROEMULSION-BASED
SYNTHESIS
176
8.2.6
FLOW
INJECTION
SYNTHESIS
176
8.2.7
AEROSOL/VAPOR-PHASE-BASED
SYNTHESIS
176
8.3
SOLID-PHASE
EXTRACTION
(SPE)
177
8.4
MAGNETIC
SOLID-PHASE
EXTRACTION
(MSPE)
177
8.4.1
MSPE
FOR
ENVIRONMENTAL
SAMPLES
178
8.4.2
MSPE
FOR
FOOD
AND
BEVERAGE
SAMPLES
183
8.4.3
MSPE
FOR
BIOLOGICAL
SAMPLES
185
8.5
CONCLUSIONS
AND
FUTURE
TRENDS
186
REFERENCES
187
9
LAB-ON-A-CHIP
WITH
NANOMATERIALS
(NMS)
195
9.1
INTRODUCTION
195
9.2
LAB-ON-A-CHIP
(LOC)
CONCEPT
196
9.2.1
PAPER-BASED
LOC
SYSTEMS
198
9.2.2
CENTRIFUGAL
LOC
SYSTEMS
198
9.2.3
DROPLET-BASED
LOC
SYSTEMS
198
9.2.4
DIGITAL
LOC
SYSTEMS
199
9.2.5
SURFACE
ACOUSTIC
WAVE-BASED
LOC
SYSTEMS
199
9.3
NM-BASED
LOC
PLATFORMS
199
9.3.1
NM-BASED
TRANSDUCERS
199
9.3.1.1
ELECTROCHEMICAL
DETECTION
SYSTEMS
199
93.1.2
OPTICAL
DETECTION
SYSTEMS
202
9.3.1.3
OTHER
DETECTION
TECHNIQUES
205
93.2
NANOPARTICLES
AS
LABELS
IN
MICROFLUIDICS
206
9.3.3
NMS
FOR
PROCESS
IMPROVEMENT
208
9.4
CONCLUSIONS
AND
FUTURE
PERSPECTIVES
209
REFERENCES
210
CONTENTS
IX
10
10.1
10.2
10.2.1
10.2.2
10.2.3
10.2.4
10.3
10.4
10.5
10.5.1
TOXICITY
AND
RISK
ASSESSMENT
OF
NANOMATERIALS
219
INTRODUCTION
219
HAZARD
ASSESSMENT
OF
NANOMATERIALS
220
DERMAL
TOXICITY
OF
NANOMATERIALS
220
INHALATIONAL
TOXICITY
OF
NANOMATERIALS
221
CARCINOGENICITY
AND
GENOTOXICITY
OF
NANOMATERIALS
223
NEUROTOXICITY
OF
NANOMATERIALS
226
TOXICITY
MECHANISM
OF
NANOMATERIALS
227
THE
TRADITIONAL
RISK
ASSESSMENT
PARADIGM
229
STRATEGIES
FOR
IMPROVING
SPECIFIC
RISK
ASSESSMENT
230
COMBINING
LIFE
CYCLE
METHODOLOGY
WITH
THE
RISK
ASSESSMENT
APPROACH
230
10.5.2
10.6
THE
SUPPORT
OF
RISK-BASED
CLASSIFICATION
SYSTEMS
231
CONCLUSIONS
232
REFERENCES
232
11
ECONOMIC
ASPECTS
OF
NANOMATERIALS
(NMS)
FOR
SAMPLE
PREPARATION
241
11.1
11.2
11.3
11.4
INTRODUCTION
241
TOXICITY
CONCERNS
OF
NMS
242
GLOBAL
MARKET
FOR
NM-BASED
PRODUCTS
243
CONCLUSIONS
245
REFERENCES
246
12
LEGAL
ASPECTS
OF
NANOMATERIALS
(NMS)
FOR
SAMPLE
PREPARATION
251
12.1
12.2
12.3
12.3.1
12.3.2
12.3.3
12.3.4
12.4
INTRODUCTION
251
SAFETY
ISSUES
OF
NMS
251
REGULATORY
ASPECTS
OF
NMS
252
ETHICAL
CONCERNS
IN
THE
ENVIRONMENTAL
EFFECTS
OF
NMS
253
ETHICAL
CONCERNS
IN
OCCUPATIONAL
HEALTH
AND
SAFETY
OF
WORKERS
254
ETHICAL
CONCERNS
OF
NMS
IN
FOOD
255
ETHICAL
CONCERNS
OF
NMS
IN
DRUGS,
COSMETICS,
AND
HUMAN
HEALTH
255
CONCLUSIONS
256
REFERENCES
257
13
13.1
13.2
13.3
13.4
13.5
13.6
13.7
13.8
MONITORING
OF
NANOMATERIALS
(NMS)
IN
THE
ENVIRONMENT
261
INTRODUCTION
261
TOXICITY
AND
SAFETY
CONCERNS
OF
NMS
262
MAIN
SOURCES
AND
TRANSPORT
ROUTES
OF
NANOPOLLUTANTS
264
REQUIREMENTS
OF
ANALYTICAL
APPROACHES
266
SAMPLING
OF
NMS
IN
ENVIRONMENTAL
SAMPLES
266
SEPARATION
OF
NMS
IN
ENVIRONMENTAL
SAMPLES
267
DETECTION
TECHNIQUES
FOR
THE
CHARACTERIZATION
OF
NMS
268
CONCLUSIONS
270
REFERENCES
270
X
CONTENTS
14
14.1
14.2
14.3
14.4
14.5
14.5.1
14.5.2
FUTURE
PROSPECT
OF
SAMPLING
275
INTRODUCTION
275
SAMPLING
276
SAMPLE
PREPARATION
276
GREEN
CHEMISTRY
278
MINIATURIZATION
OF
ANALYTICAL
SYSTEMS
280
MINIATURIZATION
OF
SEPARATION
TECHNIQUES
281
LAB-ON-A-VALVE
(LOV)
AS
A
POWERFUL
TOOL
TO
MEET
GREEN
CHEMICAL
PRINCIPLES
283
14.6
CONCLUSIONS
283
REFERENCES
284
INDEX
289
|
adam_txt |
CONTENTS
1
NANOMATERIALS
(NMS)
IN
ANALYTICAL
SCIENCES
1
1.1
INTRODUCTION
1
1.2
TYPES
OF
NMS
2
1.2.1
GRAPHENE
2
1.2.2
CARBON
NANOTUBES
(CNTS)
3
1.2.3
FULLERENES
(FULS)
4
1.2.4
INORGANIC
NANOPARTICLES
6
1.2.4.1
GOLD
AND
SILVER
NANOPARTICLES
6
1.2.4.2
TITANIUM
NANOPARTICLES
7
1.2.4.3
SILICA
NANOPARTICLES
7
1.2.5
MAGNETIC
NANOPARTICLES
7
1.3
APPLICATIONS
OF
NMS
8
1.3.1
NMS
IN
SEPARATION
PROCESSES
8
1.3.2
NMS
IN
BIOMEDICAL
APPLICATIONS
8
1.3.3
NMS
IN
SENSOR
PLATFORMS
12
1.4
CONCLUSIONS
16
REFERENCES
19
2
SPECIAL
PROPERTIES
OF
NANOMATERIALS
(NMS)
FOR
SAMPLE
PREPARATION
27
2.1
INTRODUCTION
27
2.2
MECHANICAL
PROPERTIES
OF
NMS
28
2.2.1
HARDNESS
AND
STRENGTH
28
2.2.2
DUCTILITY
30
2.2.3
APPLICATIONS
OF
MECHANICAL
PROPERTIES
32
2.3
THERMAL
PROPERTIES
OF
NMS
33
2.4
ELECTRICAL
PROPERTIES
OF
NMS
35
2.5
OPTICAL
PROPERTIES
OF
NMS
36
2.6
MAGNETIC
PROPERTIES
OF
NMS
37
2.7
ADSORPTION
PROPERTIES
OF
NMS
38
2.8
CONCLUSIONS
39
REFERENCES
40
VI
CONTENTS
3
ADSORPTION
MECHANISM
ON
NANOMATERIALS
(NMS)
47
3.1
INTRODUCTION
47
3.2
ADSORPTION
PROCESS
48
3.2.1
ADSORPTION
ISOTHERMS
48
3.2.1.1
LANGMUIR
ISOTHERM
50
3.2.1.2
FREUNDLICH
ISOTHERM
50
3.2.1.3
TEMKIN
ISOTHERM
50
3.2.1.4
DUBININ-RADUSHKEVICH
MODEL
51
3.2.1.5
HARKINS-JURA
AND
HALSEY
ISOTHERMS
51
3.2.1.6
REDLICH-PETERSON
ISOTHERM
51
3.2.1.7
BET
(BRUNAUER,
EMMETT,
AND
TELLER)
ISOTHERM
52
3.2.2
ADSORPTION
KINETICS
AND
THERMODYNAMICS
52
3.2.2.1
PSEUDO-FIRST-ORDER
KINETICS
52
3.2.2.2
PSEUDO-SECOND-ORDER
KINETICS
53
3.2.2.3
INTRAPARTICLE
DIFFUSION
MODEL
53
3.2.2.4
THERMODYNAMIC
STUDY
53
3.2.3
ADSORPTION
PROCESS
ON
NANOPARTICLES
54
3.2.3.1
SILVER
NANOPARTICLES
54
3.2.3.2
GOLD
NANOPARTICLES
55
3.2.3.3
ZINC
OXIDE
NANOPARTICLES
56
3.2.3.4
MAGNETIC
FE
3
O
4
NANOPARTICLES
56
3.2.4
ADSORPTION
PROCESS
ON
CARBON
NANOMATERIALS
58
3.2.4.1
ACTIVATED
CARBON
58
3.2.4.2
CARBON
NANOTUBES
(CNTS)
59
3.2.4.3
GRAPHENE
OXIDE
(GO)
60
3.3
CONCLUSIONS
AND
FUTURE
PERSPECTIVE
63
REFERENCES
63
4
CARBON
NANOMATERIALS
(CNMS)
AS
ADSORBENTS
FOR
SAMPLE
PREPARATION
71
4.1
INTRODUCTION
71
4.2
CARBON
NANOMATERIALS
(CNMS)
72
4.2.1
CARBON
NANOTUBES
(CNTS)
72
4.2.2
GRAPHENE
73
4.2.3
FULLERENES
(FULS)
75
4.3
ADSORPTION
ON
CNMS
76
4.4
APPLICATIONS
OF
CNMS,
77
4.4.1
EXTRACTION
AND
SEPARATION
APPLICATIONS
77
4.4.2
CHROMATOGRAPHIC
APPLICATIONS
80
4.4.2.1
CHROMATOGRAPHIC
STATIONARY
PHASES
HAVING
CNTS
81
4.4.2.2
CHROMATOGRAPHIC
STATIONARY
PHASES
HAVING
FULS
83
4.5
CONCLUSIONS
84
REFERENCES
84
CONTENTS
VII
5
5.1
5.2
5.3
5.3.1
5.3.2
5.3.3
5.4
5.5
5.6
MEMBRANE
APPLICATIONS
OF
NANOMATERIALS
(NMS)
93
INTRODUCTION
93
TRADITIONAL
MEMBRANES
93
CARBON
NANOMATERIAL-BASED
MEMBRANES
94
GRAPHENE-BASED
MEMBRANES
94
CARBON
NANO
TUBE-BASED
MEMBRANES
97
FULLERENE-BASED
MEMBRANES
100
NANOPARTICLE-BASED
MEMBRANES
101
MOLECULARLY
IMPRINTED
POLYMER
(MLP)-BASED
MEMBRANES
102
CONCLUSIONS
105
REFERENCES
108
6
SURFACE-ENHANCED
RAMAN
SPECTROSCOPY
(SERS)
WITH
NANOMATERIALS
(NMS)
117
6.1
6.2
6.3
6.3.1
6.3.2
6.4
6.5
6.5.1
6.5.2
6.6
6.6.1
6.6.2
6.6.3
6.6.4
6.7
6.7.1
6.7.2
6.7.2.1
6.7.2.2
6.7.2.3
6.8
INTRODUCTION
117
THEORY
OF
SERS
118
SERS
MECHANISMS
118
ELECTROMAGNETIC
ENHANCEMENT
119
CHEMICAL
ENHANCEMENT
120
DETERMINATION
OF
SERS
ENHANCEMENT
FACTOR
121
SELECTION
RULES
121
IMAGE
FIELD
MODEL
121
ELECTROMAGNETIC
FIELD
MODEL
122
FABRICATIONS
OF
SERS
SUBSTRATES
123
TEMPLATE-ASSISTED
FABRICATION
124
HYBRID
FABRICATION
124
FABRICATION
BY
USING
COLLOIDS
124
DIRECT
DEPOSITION
125
APPLICATIONS
OF
SERS
125
SERS-BASED
SEPARATION
APPLICATIONS
125
SERS-BASED
SENSOR
APPLICATIONS
126
ENVIRONMENTAL
ANALYSIS
126
FORENSIC
ANALYSIS
129
BIOLOGICAL
APPLICATIONS
131
CONCLUSIONS
133
REFERENCES
133
7
7.1
7.2
7.2.1
7.2.2
7.3
NANOMATERIALS
(NMS)
FOR
BIOLOGICAL
SAMPLE
PREPARATIONS
147
INTRODUCTION
147
THE
USE
OF
NMS
IN
DIAGNOSTIC
PLATFORMS
148
THE
OPTIMIZATION
OF
NMS
IN
DIAGNOSTIC
PLATFORMS
148
BIOFUNCTIONALIZATION
OF
NMS
IN
DIAGNOSTIC
PLATFORMS
149
NMS-BASED
LAB-ON-A-CHIP
(LOC)
PLATFORMS
150
VIII
CONTENTS
7.3.1
PAPER-BASED
LOC
PLATFORMS
152
7.3.2
CENTRIFUGAL
LOC
PLATFORMS
152
7.3.3
DROPLET-BASED
LOC
PLATFORMS
152
7.3.4
DIGITAL
LOC
PLATFORMS
152
73.5
SURFACE
ACOUSTIC
WAVE-BASED
LOC
PLATFORMS
152
73.6
LOC
PLATFORMS
FOR
BIOLOGICAL
APPLICATIONS
153
7
A
BIOMEDICAL
APPLICATIONS
OF
NMS
155
7.5
SENSOR
APPLICATIONS
OF
NMS
157
7.6
CONCLUSIONS
162
REFERENCES
162
8
MAGNETIC
NANOMATERIALS
FOR
SAMPLE
PREPARATION
173
8.1
INTRODUCTION
173
8.2
SYNTHESIS
OF
MAGNETIC
NANOPARTICLES
174
8.2.1
THERMAL
DECOMPOSITION
TECHNIQUE
174
8.2.2
COPRECIPITATION
TECHNIQUE
175
8.2.3
SOL-GEL
SYNTHESIS
175
8.2.4
HYDROTHERMAL
SYNTHESIS
176
8.2.5
MICROEMULSION-BASED
SYNTHESIS
176
8.2.6
FLOW
INJECTION
SYNTHESIS
176
8.2.7
AEROSOL/VAPOR-PHASE-BASED
SYNTHESIS
176
8.3
SOLID-PHASE
EXTRACTION
(SPE)
177
8.4
MAGNETIC
SOLID-PHASE
EXTRACTION
(MSPE)
177
8.4.1
MSPE
FOR
ENVIRONMENTAL
SAMPLES
178
8.4.2
MSPE
FOR
FOOD
AND
BEVERAGE
SAMPLES
183
8.4.3
MSPE
FOR
BIOLOGICAL
SAMPLES
185
8.5
CONCLUSIONS
AND
FUTURE
TRENDS
186
REFERENCES
187
9
LAB-ON-A-CHIP
WITH
NANOMATERIALS
(NMS)
195
9.1
INTRODUCTION
195
9.2
LAB-ON-A-CHIP
(LOC)
CONCEPT
196
9.2.1
PAPER-BASED
LOC
SYSTEMS
198
9.2.2
CENTRIFUGAL
LOC
SYSTEMS
198
9.2.3
DROPLET-BASED
LOC
SYSTEMS
198
9.2.4
DIGITAL
LOC
SYSTEMS
199
9.2.5
SURFACE
ACOUSTIC
WAVE-BASED
LOC
SYSTEMS
199
9.3
NM-BASED
LOC
PLATFORMS
199
9.3.1
NM-BASED
TRANSDUCERS
199
9.3.1.1
ELECTROCHEMICAL
DETECTION
SYSTEMS
199
93.1.2
OPTICAL
DETECTION
SYSTEMS
202
9.3.1.3
OTHER
DETECTION
TECHNIQUES
205
93.2
NANOPARTICLES
AS
LABELS
IN
MICROFLUIDICS
206
9.3.3
NMS
FOR
PROCESS
IMPROVEMENT
208
9.4
CONCLUSIONS
AND
FUTURE
PERSPECTIVES
209
REFERENCES
210
CONTENTS
IX
10
10.1
10.2
10.2.1
10.2.2
10.2.3
10.2.4
10.3
10.4
10.5
10.5.1
TOXICITY
AND
RISK
ASSESSMENT
OF
NANOMATERIALS
219
INTRODUCTION
219
HAZARD
ASSESSMENT
OF
NANOMATERIALS
220
DERMAL
TOXICITY
OF
NANOMATERIALS
220
INHALATIONAL
TOXICITY
OF
NANOMATERIALS
221
CARCINOGENICITY
AND
GENOTOXICITY
OF
NANOMATERIALS
223
NEUROTOXICITY
OF
NANOMATERIALS
226
TOXICITY
MECHANISM
OF
NANOMATERIALS
227
THE
TRADITIONAL
RISK
ASSESSMENT
PARADIGM
229
STRATEGIES
FOR
IMPROVING
SPECIFIC
RISK
ASSESSMENT
230
COMBINING
LIFE
CYCLE
METHODOLOGY
WITH
THE
RISK
ASSESSMENT
APPROACH
230
10.5.2
10.6
THE
SUPPORT
OF
RISK-BASED
CLASSIFICATION
SYSTEMS
231
CONCLUSIONS
232
REFERENCES
232
11
ECONOMIC
ASPECTS
OF
NANOMATERIALS
(NMS)
FOR
SAMPLE
PREPARATION
241
11.1
11.2
11.3
11.4
INTRODUCTION
241
TOXICITY
CONCERNS
OF
NMS
242
GLOBAL
MARKET
FOR
NM-BASED
PRODUCTS
243
CONCLUSIONS
245
REFERENCES
246
12
LEGAL
ASPECTS
OF
NANOMATERIALS
(NMS)
FOR
SAMPLE
PREPARATION
251
12.1
12.2
12.3
12.3.1
12.3.2
12.3.3
12.3.4
12.4
INTRODUCTION
251
SAFETY
ISSUES
OF
NMS
251
REGULATORY
ASPECTS
OF
NMS
252
ETHICAL
CONCERNS
IN
THE
ENVIRONMENTAL
EFFECTS
OF
NMS
253
ETHICAL
CONCERNS
IN
OCCUPATIONAL
HEALTH
AND
SAFETY
OF
WORKERS
254
ETHICAL
CONCERNS
OF
NMS
IN
FOOD
255
ETHICAL
CONCERNS
OF
NMS
IN
DRUGS,
COSMETICS,
AND
HUMAN
HEALTH
255
CONCLUSIONS
256
REFERENCES
257
13
13.1
13.2
13.3
13.4
13.5
13.6
13.7
13.8
MONITORING
OF
NANOMATERIALS
(NMS)
IN
THE
ENVIRONMENT
261
INTRODUCTION
261
TOXICITY
AND
SAFETY
CONCERNS
OF
NMS
262
MAIN
SOURCES
AND
TRANSPORT
ROUTES
OF
NANOPOLLUTANTS
264
REQUIREMENTS
OF
ANALYTICAL
APPROACHES
266
SAMPLING
OF
NMS
IN
ENVIRONMENTAL
SAMPLES
266
SEPARATION
OF
NMS
IN
ENVIRONMENTAL
SAMPLES
267
DETECTION
TECHNIQUES
FOR
THE
CHARACTERIZATION
OF
NMS
268
CONCLUSIONS
270
REFERENCES
270
X
CONTENTS
14
14.1
14.2
14.3
14.4
14.5
14.5.1
14.5.2
FUTURE
PROSPECT
OF
SAMPLING
275
INTRODUCTION
275
SAMPLING
276
SAMPLE
PREPARATION
276
GREEN
CHEMISTRY
278
MINIATURIZATION
OF
ANALYTICAL
SYSTEMS
280
MINIATURIZATION
OF
SEPARATION
TECHNIQUES
281
LAB-ON-A-VALVE
(LOV)
AS
A
POWERFUL
TOOL
TO
MEET
GREEN
CHEMICAL
PRINCIPLES
283
14.6
CONCLUSIONS
283
REFERENCES
284
INDEX
289 |
any_adam_object | 1 |
any_adam_object_boolean | 1 |
author | Hussain, Chaudhery Mustansar 1975- Keçili, Rüstem 1980- Hussain, Chaudhery Ghazanfar |
author_GND | (DE-588)1124182330 (DE-588)1030131139 (DE-588)1235177718 |
author_facet | Hussain, Chaudhery Mustansar 1975- Keçili, Rüstem 1980- Hussain, Chaudhery Ghazanfar |
author_role | aut aut aut |
author_sort | Hussain, Chaudhery Mustansar 1975- |
author_variant | c m h cm cmh r k rk c g h cg cgh |
building | Verbundindex |
bvnumber | BV047280953 |
classification_rvk | VE 9850 ZM 7028 ZN 3700 |
ctrlnum | (OCoLC)1252699058 (DE-599)BVBBV047280953 |
discipline | Chemie / Pharmazie Werkstoffwissenschaften / Fertigungstechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
discipline_str_mv | Chemie / Pharmazie Werkstoffwissenschaften / Fertigungstechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
format | Book |
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id | DE-604.BV047280953 |
illustrated | Illustrated |
index_date | 2024-07-03T17:17:10Z |
indexdate | 2024-07-10T09:07:42Z |
institution | BVB |
isbn | 9783527338177 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032684492 |
oclc_num | 1252699058 |
open_access_boolean | |
owner | DE-11 DE-703 |
owner_facet | DE-11 DE-703 |
physical | x, 294 Seiten Illustrationen |
publishDate | 2021 |
publishDateSearch | 2021 |
publishDateSort | 2021 |
publisher | Wiley-VCH |
record_format | marc |
spelling | Hussain, Chaudhery Mustansar 1975- Verfasser (DE-588)1124182330 aut Sample preparation with nanomaterials next generation techniques and applications Dr. Chaudhery Mustansar Hussain, Dr. Rüstem Keçili, Dr. Chaudhery Ghazanfar Hussain Weinheim Wiley-VCH [2021] © 2021 x, 294 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Probenvorbereitung (DE-588)4588977-6 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Probenvorbereitung (DE-588)4588977-6 s Nanostrukturiertes Material (DE-588)4342626-8 s DE-604 Keçili, Rüstem 1980- Verfasser (DE-588)1030131139 aut Hussain, Chaudhery Ghazanfar Verfasser (DE-588)1235177718 aut Erscheint auch als Online-Ausgabe, PDF 978-3-527-68560-8 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-68561-5 Erscheint auch als Online-Ausgabe 978-3-527-68562-2 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032684492&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Hussain, Chaudhery Mustansar 1975- Keçili, Rüstem 1980- Hussain, Chaudhery Ghazanfar Sample preparation with nanomaterials next generation techniques and applications Probenvorbereitung (DE-588)4588977-6 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd |
subject_GND | (DE-588)4588977-6 (DE-588)4342626-8 |
title | Sample preparation with nanomaterials next generation techniques and applications |
title_auth | Sample preparation with nanomaterials next generation techniques and applications |
title_exact_search | Sample preparation with nanomaterials next generation techniques and applications |
title_exact_search_txtP | Sample preparation with nanomaterials next generation techniques and applications |
title_full | Sample preparation with nanomaterials next generation techniques and applications Dr. Chaudhery Mustansar Hussain, Dr. Rüstem Keçili, Dr. Chaudhery Ghazanfar Hussain |
title_fullStr | Sample preparation with nanomaterials next generation techniques and applications Dr. Chaudhery Mustansar Hussain, Dr. Rüstem Keçili, Dr. Chaudhery Ghazanfar Hussain |
title_full_unstemmed | Sample preparation with nanomaterials next generation techniques and applications Dr. Chaudhery Mustansar Hussain, Dr. Rüstem Keçili, Dr. Chaudhery Ghazanfar Hussain |
title_short | Sample preparation with nanomaterials |
title_sort | sample preparation with nanomaterials next generation techniques and applications |
title_sub | next generation techniques and applications |
topic | Probenvorbereitung (DE-588)4588977-6 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd |
topic_facet | Probenvorbereitung Nanostrukturiertes Material |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032684492&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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