Solution processing of inorganic materials:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2009
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVIII, 497 S. Ill., graph. Darst. |
| ISBN: | 9780470406656 |
Internformat
MARC
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| 245 | 1 | 0 | |a Solution processing of inorganic materials |c ed. by David B. Mitzi |
| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2009 | |
| 300 | |a XVIII, 497 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Inorganic compounds | |
| 650 | 4 | |a Materials | |
| 650 | 4 | |a Solid state chemistry | |
| 650 | 4 | |a Solution (Chemistry) | |
| 650 | 0 | 7 | |a Anorganischer Werkstoff |0 (DE-588)4142570-4 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Lösung |g Chemie |0 (DE-588)4036159-7 |2 gnd |9 rswk-swf |
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| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Mitzi, David B. |e Sonstige |4 oth | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017162886&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-017162886 | ||
Datensatz im Suchindex
| _version_ | 1804138683063861248 |
|---|---|
| adam_text | CONTENTS
Preface
xiii
Contributors
xvii
1.
Introduction to Solution-Deposited Inorganic Electronics
1
Robert H. Reuss and
Babu R. Chalamala
1.1
Background and Motivation
1
1.1.1
Electronics Technologies
1
1.1.2
Commercial Macroelectronic Technology
2
1.1.3
Macroelectronics Potential
5
1.2
Importance of Solution Processing
8
1.3
Application Challenges: TFT Devices and Circuits
11
1.3.1
TFT Device Fundamentals
12
1.3.2
Next-Generation TFTs
14
1.3.3
Technology for RF TFTs
15
1.3.4
Exploratory TFT Concepts
17
1.3.5
Technology Computer Aided Design for TFTs
19
1.4
Application Challenges: Optoelectronics
19
1.4.1
Photovoltaics
19
1.4.2
Transparent Conductive Oxides
21
1.4.3
Transparent Transistors
21
1.4.4
Light-Emitting Diodes
22
1.4.5
Solid-State Lighting
22
1.4.6
Si-Based Integrated Emitters
23
1.5
Application Challenges: Power Sources, Sensors,
and Actuators
24
1.6
Conclusions
26
References
27
2.
Chemical Solution Deposition
—
Basic Principles
33
Robert W. Schwartz and Manoj Narayanan
2.1
Introduction
33
2.2
Substrate Surface Preparation
34
VÍ
CONTENTS
2.3
Starting Reagents and Solvents
36
2.3.1
Background
36
2.3.2
Starting Reagents
36
2.3.3
Solvents
39
2.4
Precursor Solution Preparation and Characteristics
41
2.4.1
Background
41
2.4.2
Sol-Gel Processes
41
2.4.3
Chelate Processes
45
2.4.4
MOD Solution Synthesis
47
2.4.5
Solution Preparation Summary
48
2.4.6
Other Processing Routes
49
2.5
Film Formation Behavior
49
2.5.1
Background
49
2.5.2
Spin Coating
49
2.5.3
Dip Coating
51
2.5.4
Spray Coating
52
2.5.5
Stamping and
Microcontact
Printing
52
2.6
Structural Evolution: Film Formation, Densification, and
Crystallization
53
2.6.1
Background
53
2.6.2
Film Formation
54
2.6.3
Densification and Crystallization
55
2.7
Summary
65
References
68
3.
Solution Processing of Chalcogenide Semiconductors
via Dimensional Reduction
77
David B. Mini
3.1
Introduction
77
3.2
Dimensional Reduction
78
3.3
Hydrazine Precursor Route
82
3.3.1
SnSe2_xSx Films
82
3.3.2
In2Se3 Films
87
3.3.3
CuInTe2, CuInSe2, and Cu(Ga!_xInx)Se2 Films
89
3.3.4
Cu2S Precursor
94
3.3.5
KSb5S8 Films
94
3.3.6
Other Metal Chalcogenide Systems
98
3.4
Similar Approaches without Hydrazine
102
3.5
Future Prospects
103
References
104
CONTENTS
VII
4. Oxide Dielectric Films
for
Active Electronics 109
Douglas
A. Keszler, Jeremy
T.
Anderson, and Stephen T. Meyers
4.1
Introduction
109
4.2 Gate Dielectric Materials
Selection
109
4.3
Producing High-Quality
Films
from Solution
113
4.4
Haf
SOx Thin-Film Dielectrics
114
4.5
AIPO
Thin-Film Dielectric
117
4.6
Compositionally Graded and Laminated Structures
125
4.7
Summary and Perspective
126
References
127
5.
Liquid Silicon Materials
131
Masahiro Furusawa and Hideki Tanaka
5.1
Introduction
131
5.2
Liquid Silicon Material
132
5.3
Forming Silicon Films from the Liquid Silicon Materials
134
5.4
Fabrication of a TFT Using a Solution-Processed
Silicon Film
137
5.5
Fabrication of TFT Using InkJet-Printed Silicon Film
140
5.6
Forming SiO2 Films from the Liquid Silicon Materials
142
5.7
LTPS Fabrication Using Solution-Processed SiO2 Films
144
5.8
Forming Doped Silicon Films
147
5.9
Conclusions
153
Acknowledgments
153
References
153
6.
Spray CVD of Single-Source Precursors for Chalcopyrite
I-III-VI2 Thin-Film Materials
157
Aloysius F.
Hepp,
Kulbinder K.
Banger, Michael
H.-C.
Jin,
Jerry
D.
Harris, Jeremiah S. McNatt, and John E. Dickman
6.1
Introduction
157
6.2
Single-Source Precursor Studies
161
6.2.1
Background
161
6.2.2
Chemical Synthesis of SSPs
163
6.2.3
Thermal Analysis and Characterization of SSPs
164
6.2.4
Preparation of I-III-VIj Powders from SSPs
167
6.3
Spray or Atmosphere-Assisted CVD Processing
169
6.3.1
AACVD Reactor Design
169
6.3.2
Preliminary Thin-Film Deposition Studies
171
6.3.3
Impact of Reactor Design on CuInS2
Film Growth
178
6.4
Atmospheric Pressure Hot-Wall Reactor Parametric Study
181
6.4.1
Parametric Study Approach
181
VIU
CONTENTS
6.4.2 Variation
of Deposition Temperature
182
6.4.3
Variation of Susceptor Location and Precursor
Concentration
184
6.4.4
Postdeposition
Annealing
184
6.4.5
Photoluminescence
Studies
185
6.5
Fabrication and Testing of CIS Solar Cells
189
6.5.1
Cell Fabrication at GRC
189
6.5.2
Cross-Fabrication of Solar Cells
190
6.5.3
Solar Cell Characterization
190
6.6
Concluding Remarks
191
6.6.1
Summary
191
6.6.2
Outlook and Future Work
192
Acknowledgments
193
References
193
7.
Chemical Bath Deposition, Electrodeposition, and Elecfroless
Deposition of Semiconductors, Superconductors, and
Oxide Materials
199
Raghu Bhattacharya
7.1
Introduction
199
7.2
Chemical Bath Deposition
200
7.2.1
CdS Deposition
200
7.2.2
ZnS(O,OH) Deposition
203
7.2.3
Cdi_xZnxS
Deposition
206
7.2.4
Other Systems
209
7.3
Deposition of CIGS by Electrodeposition and
Electroless Deposition
210
7.3.1
Electrodeposition of CIGS
211
7.3.2
Electroless Deposition of CIGS
215
7.4
Electrodeposition of Oxide Superconductors
218
7.4.1
Electrodeposition of Tl-Bi-Sr-Ba-Ca-Cu-O
219
7.4.2
Electrodeposition of Bi-Sr-Ca-Cu-O
222
7.5
Electrodeposition of Cerium Oxide Films
223
7.6
Electrodeposition of Gd2Zr2O7
225
References
229
8.
Successive Ionic Layer Adsorption and Reaction
(SILAR)
and Related Sequential Solution-Phase Deposition Techniques
239
Seppo Lindroos and
Markku Leskelä
8.1
Introduction
239
8.2
SILAR
240
8.2.1
Basic Principles of
SILAR
240
8.2.2
Advantages and Disadvantages of
SILAR
241
CONTENTS
ІХ
8.2.3
SILAR Deposition
Equipment
242
8.2.4
Mechanism of Film Growth in
SILAR
243
8.3
Materials Grown by
SILAR
244
8.3.1
Oxide Films
244
8.3.2
Chalcogenide Films
252
8.3.3
Films of Metals and Other Materials
263
8.4
ILGAR
264
8.4.1
Basic Principles of ILGAR
264
8.4.2
Materials Grown by ILGAR
265
8.5
ECALE
268
8.5.1
Basic Principles of
ECALE
268
8.5.2
Materials Grown by
ECALE
268
8.6
Other Sequential Solution-Phase Deposition Techniques
270
References
270
9.
Evaporation-Induced Self-Assembly for the Preparation of
Porous Metal Oxide Films
283
Bernd
Smarsly and
Dina Fattakhova-Rohlfing
9.1
Introduction
283
9.2
The EISA Process
284
9.3
Characterization of Self-Assembled Films
289
9.3.1
Positron Annihilation Lifetime
Spectroscopy (PALS)
289
9.3.2
Gas Physisorption
290
9.3.3
Small-Angle
Х
-Ray Scattering (SAXS)
292
9.4
Generation of Mesoporous Crystalline Metal Oxide
Films Via Evaporation-Induced Self-Assembly
294
9.5
Electronic Applications
299
9.5.1
Mesoporous Films with Insulating Framework
299
9.5.2
Mesoporous Films with a Semiconducting
Framework
301
9.6
Mesoporous Films in Dye-Sensitized Solar Cells
303
9.7
Conclusions
306
References
306
10.
Engineered Nanomaterials as Soluble Precursors for
Inorganic Films
313
Dmitri V. Talapin
10.1
Introduction
313
10.2
Synthesis of Inorganic Nanomaterials
315
10.3
Nanoparticles as Soluble Building Blocks for
Inorganic Films
318
X
CONTENTS
10.3.1
Sintering Metal and Semiconductor
Nanoparticles into Continuous
Polycrystalline Films
319
10.3.2
Electronic Materials Based on Nanoparticle
Assemblies
323
10.3.3
Multicomponent Nanoparticle Assemblies
331
10.4
Films and Arrays of Inorganic Nanowires
333
10.5
Applications Using Networks and Arrays of Carbon
Nanotubes
336
10.6
Concluding Remarks
339
Acknowledgments
340
References
340
11.
Functional Structures Assembled from Nanoscale
Building Blocks
349
Yu Huang
11.1
Introduction
349
11.2
Building Blocks: Synthesis and Properties
350
11.3
Hierarchical Assembly of Nanowires
354
11.3.1
Fluidic Flow-Directed Assembly
354
11.3.2
Langmuir-Blodgett Technique-Assisted
NW Assembly
357
11.4
Nanowire Electronics and Optoelectronics
358
11.4.1
Crossed Nanowire Devices
358
11.4.2
Nanoscale Logic Gates and Computational
Circuits
360
11.4.3
Nanoscale Optoelectronics
362
11.5
Nanowire Thin-Film Electronics
—
Concept and
Performance
366
11.5.1
p-Si Nanowire Thin-Film Transistors
366
11.5.2
High-Speed Integrated Si NW-TFT Circuits
368
11.5.3 3D
Integrated Functional Electronic System
370
11.6
Summary and Perspective
372
References
373
12.
Patterning Techniques for Solution Deposition
379
Paul Brazis, Daniel Gamota, Jie Zhang, and John Szczech
12.1
Introduction
379
12.2
Opportunities for Printable Inorganic verses Organic
Materials Systems
381
12.3
Printing and the Microelectronics Industry
—
Present
and Future
384
12.4
Printed Electronics Value Chain
386
CONTENTS
ХІ
12.5
Electrically Functional Inks
387
12.6
Printing Technologies
389
12.6.1
Contact Printing
389
12.6.2
Noncontact
Printing—Ink Jet
393
12.6.3
Functional Inks for Ink Jet
394
12.7
Structure of a Printed Transistor
397
12.8
Patterning Techniques for Solution Deposition:
Technology Diffusion
398
12.8.1
Standards
399
12.8.2
Awareness
399
12.8.3
Roadmapping for Supply Chain Development
400
12.8.4
Quality Control/Assurance
400
12.9
Conclusions
400
References
401
13.
Transfer Printing Techniques and Inorganic Single-Crystalline
Materials for Flexible and Stretchable Electronics
407
Jong-Hyun
Ahn,
Matthew A. Meitl, Aflred J.
Baca,
Dahl-Young Khang, Hoon-Sik Kim, and John A. Rogers
13.1
Introduction
407
13.2
Inorganic Single-Crystalline Semiconductor Materials
for Flexible Electronics
409
13.3
Transfer Printing Using an Elastomer Stamp
412
13.3.1
Surface Chemistry
415
13.3.2
Thin-Film Adhesives
417
13.3.3
Kinetic Effects
419
13.3.4
Stress Concentration and Fracture
421
13.3.5
Carrier Films and Carbon Nanotubes
423
13.3.6
Machines for Transfer Printing
425
13.4
Flexible Thin-Film Transistors that Use
цѕ-Ѕс
on Plastic
426
13.5
Integrated Circuits on Plastic
429
13.5.1
Two-Dimensional Integration
429
13.5.2
Three-Dimensional and Heterogeneous
Integration
432
13.6
цѕ-Ѕс
Electronics on Rubber
436
13.7
Conclusion
441
References
441
14.
Future Directions for Solution-Based Processing of
Inorganic Materials
449
M. F. A. M. van
Hest
and D. S. Ginley
14.1
Introduction
449
14.2
Materials
450
XU CONTENTS
14.3
14.4
14.2.1
Semiconductors
450
14.2.2 Oxides
452
14.2.3 Metals
454
Deposition Approaches
455
Next
Generation
of
Applications
455
14.4.1 New Solar
Cells:
Quantum
Dot (QD) Structures
and Multiple Exciton Generation
(MEG)
456
14.4.2
Organic-Inorganic Hybrids
457
14.4.3
Non
Linear Optics
460
14.4.4
SD-Structures
462
14.4.5
Catalysis/Artificial Photosynthesis
462
Conclusions
465
References
465
14.5
Index
471
|
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| id | DE-604.BV035358858 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:32:05Z |
| institution | BVB |
| isbn | 9780470406656 |
| language | English |
| lccn | 2008021430 |
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| oclc_num | 228701300 |
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| owner | DE-703 DE-634 DE-384 |
| owner_facet | DE-703 DE-634 DE-384 |
| physical | XVIII, 497 S. Ill., graph. Darst. |
| publishDate | 2009 |
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| publishDateSort | 2009 |
| publisher | Wiley |
| record_format | marc |
| spelling | Solution processing of inorganic materials ed. by David B. Mitzi Hoboken, NJ Wiley 2009 XVIII, 497 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Inorganic compounds Materials Solid state chemistry Solution (Chemistry) Anorganischer Werkstoff (DE-588)4142570-4 gnd rswk-swf Lösung Chemie (DE-588)4036159-7 gnd rswk-swf Festkörperchemie (DE-588)4129288-1 gnd rswk-swf Anorganischer Werkstoff (DE-588)4142570-4 s Lösung Chemie (DE-588)4036159-7 s Festkörperchemie (DE-588)4129288-1 s DE-604 Mitzi, David B. Sonstige oth Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017162886&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Solution processing of inorganic materials Inorganic compounds Materials Solid state chemistry Solution (Chemistry) Anorganischer Werkstoff (DE-588)4142570-4 gnd Lösung Chemie (DE-588)4036159-7 gnd Festkörperchemie (DE-588)4129288-1 gnd |
| subject_GND | (DE-588)4142570-4 (DE-588)4036159-7 (DE-588)4129288-1 |
| title | Solution processing of inorganic materials |
| title_auth | Solution processing of inorganic materials |
| title_exact_search | Solution processing of inorganic materials |
| title_full | Solution processing of inorganic materials ed. by David B. Mitzi |
| title_fullStr | Solution processing of inorganic materials ed. by David B. Mitzi |
| title_full_unstemmed | Solution processing of inorganic materials ed. by David B. Mitzi |
| title_short | Solution processing of inorganic materials |
| title_sort | solution processing of inorganic materials |
| topic | Inorganic compounds Materials Solid state chemistry Solution (Chemistry) Anorganischer Werkstoff (DE-588)4142570-4 gnd Lösung Chemie (DE-588)4036159-7 gnd Festkörperchemie (DE-588)4129288-1 gnd |
| topic_facet | Inorganic compounds Materials Solid state chemistry Solution (Chemistry) Anorganischer Werkstoff Lösung Chemie Festkörperchemie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017162886&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT mitzidavidb solutionprocessingofinorganicmaterials |