Nanotechnology: 1 Principles and fundamentals
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2008
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | X, 300 S. Ill., graph. Darst. 25 cm |
| ISBN: | 9783527317325 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804137533080076288 |
|---|---|
| adam_text | Contents
List of Contributors IX
Ί
Introduction
1
Canter
Schmid
2
The Nature of Nanotechnology
3
Günter
Schmid
2.1
Definition
3
2.2
From Nanoscience to Nanotechnology
8
2.2.1
Molecular Motors and Machines
9
2.2.2
Molecular Switches
15
2.2.3
Single-Electron Memories
18
2.2.4
Drug Delivery
21
2.2.5
Gene Chips
25
2.2.6
Hyperthermia
27
2.2.7
Gas Sensors
28
2.3
Technologies on the Nanoscale
31
2.3.1
Introduction
31
2.3.2
Structured Surfaces
31
2.4
Final Remarks
35
References
36
3
Top-Down Versus Bottom-Up
41
WolfgangJ. Parak,
Friedrich
С.
Símmel,
and Alexander
W. Holleitner
3.1
Introduction
41
3.1.1
Top-Down Strategies
43
3.1.2
Bottom-Up Strategies
46
3.2
First Example: Nanotweezers
48
3.2.1
Top-Down Nanotweezers
48
VI
Contents
3.2.2
Bottom-Up Nanotweezers
51
3.3
Second Example: Nanomotors
52
3.3.1
Top-Down Nanomotors
52
3.3.2
Bottom-Up Nanomotors
54
3.4
Third Example: Patterning
56
3.4.1
Soft lithography
56
3.4.2 Two-Dimensional DNA
Lattices
57
3.5
Fourth Example: Quantum Dots
58
3.5.1
Different Methods for Making Quantum Dots
58
3.5.2
lithographically Defined Quantum Dots
59
3.5.3
Epitaxially Self-Assembled Quantum Dots
61
3.5.4
Colloidal Quantum Dots
62
3.6
Perspectives and limits of Top-Down and Bottom-Up
Approaches
64
References
66
4
Fundamental Principles of Quantum Dots
73
WolfgangJ. Parak,
Liberato
Manna, and Thomas Nann
4.1
Introduction and Outline
73
4.1.1
Nanoscale Science and Technology
73
4.2
Nanoscale Materials and Quantum Mechanics
75
4.2.1
Nanoscale Materials are Intermediates Between Atomic and
Bulk Matter
75
4.2.2
Quantum Mechanics
76
4.3
From Atoms to Molecules and Quantum Dots
77
4.4
Shrinking Bulk Material to a Quantum Dot
81
АЛЛ
Three-Dimensional Systems (Bulk Material)
81
4.4.2
Two-Dimensional Systems
85
4.4.3
One-Dimensional Systems (Quantum Wires)
88
АЛЛ
Zero-Dimensional Systems (Quantum Dots)
90
4.5
Energy Levels of a (Semiconductor) Quantum Dot
91
References
95
5
Fundamentals and Functionality of Inorganic Wires, Rods
and Tubes
97
JörgJ.
Schneider, Alexander
Popp,
and
Jörg Engstier
5.1
Introduction
97
5.2
Physical Properties of ID Structures
99
5.3
Synthetic Methods for ID Structures
100
5.3.1
The Template Approach
101
5.3.2
Electrochemical Techniques
204
5.3.2.1
Elecrrospinning
104
5.3.2.2
Electrophoretic Deposition
105
5.3.3
Vapor-Liquid-Solid (VLS) and Related Synthesis Techniques
106
Contenu
VII
5.4
Contacting the Outer World: Nanowires and Nanotubes as
Building Blocks in Nano/Micro/Macro-Integration
110
5.4.1
Nanowire and Nanotube Sensors 111
5.4.2
Piezoelectrics Based on Nanowire Arrays
118
5.4.3
With Nanowires and Nanotubes to Macroelectronics
120
5.4.3.1
Inorganic Nanowire and Nanotube Transistors
120
5.4.3.2
Branched Nanowire Structures
129
5.5
Outlook
132
References
132
6
Biomolecule-Nanoparticle Hybrid Systems
139
Maya Zayats and Itamar Willner
6.1
Introduction
139
6.2
Metal Nanoparticles for Electrical Contacting of
Redox
Proteins
140
6.3
Metal Nanoparticles as Electrochemical and Catalytic Labels
141
6.4
Metal Nanoparticles as Microgravimetric Labels
149
6.5
Semiconductor Nanoparticles as Electrochemical Labels for
Biorecognition Events
153
6.6
Metal Nanoparticles as Optical Labels for Biorecognition Events
155
6.7
Semiconductor Nanoparticles as Optical Labels
172
6.8
Semiconductor Nanoparticles for Photoelectrochemical
Applications
179
6.9
Biomolecules as Catalysts for the Synthesis of Nanoparticles
188
6.10
Biomolecule Growth of Metal Nanowires
196
6.11
Conclusions and Perspectives
205
References
208
7
Philosophy of Nanotechnoscience
217
Alfred
Nordmann
7.1
Introduction: Philosophy of Science and of
Technoscience
217
7.2
From Closed Theories to Limits of Understanding and
Control
219
7.2.1
Closed Relative to the Nanoscale
219
7.2.2
Applying Theory to the Nanoscale: Fitting Versus Stretching
221
7.2.3
Mute Complexity
224
7.3
From Successful Methods to the Power of Images
226
7.3.1
(Techno)scientific Methodology: Quantitative Versus
Qualitative
226
7.3.2
Ontological Indifference : Representation Versus
Substitution
227
7.3.3
Images as the Beginning and End of Nanotechnologies
229
7
Λ
From Definitions to Visions
231
7
A.I Wieldy and Unwieldy Conceptions
231
7.4.2
Unlimited Potential
231
7.4.3
A Formidable Challenge
233
VIII Contents
7.5
From
Epistemic
Certainty to Systemic Robustness
236
7.5.1
What Do Nanoscientists Know?
236
7.5.2
The Knowledge Society
236
7.5.3
Social Robustness
237
7.6
What Basic Science Does Nanotechnology Need?
238
References
241
8
Ethics of Nanotechnology. State of the Art and Challenges Ahead
245
Armin
Grunwald
8.1
Introduction and Overview
245
8.2
The Understanding of Ethics
246
8.3
Ethical Aspects of Nanotechnology
-
an Overview
248
8.3.1
Equity: Just Distribution of Opportunities and Risks
249
8.3.2
Environmental Issues
250
8.3.3
Privacy and Control
253
8.3.4
Military Use of Nanotechnology
254
8.3.5
Health
255
8.3.6
Artificial Life
257
8.3.7
Human Enhancement
258
8.4
Nanopartides and the Precautionary Principle
260
8.4.1
The Risk Debate on Nanopartides
260
8.4.2
The Precautionary Principle
261
8.4.3
The Precautionary Principle Applied to Nanopartides
264
8.5
Human Enhancement by Converging Technologies
267
8.5.1
Human Enhancement: Visions and Expectations
268
8.5.2
Occasions of Choice and Need for Orientation
270
8.5.3
Human Enhancement
-
No Simple Answers from Ethics
270
8.5.4
Enhancement Technologies
-
A Marketplace Scenario Ahead?
273
8.6
Conceptual and Methodical Challenges
275
8.6.1
Ethical Assessments of Uncertain Futures
275
8.6.2
Ethical Vision Assessment
277
8.6.3
Ethical Reflection in Technology Foresight
279
8.6.4
Concomitant Ethical Reflection on Nanotechnology
280
References
282
9
Outlook and Consequences
287
Günter
Schmid
References
288
Index
289
|
| adam_txt |
Contents
List of Contributors IX
Ί
Introduction
1
Canter
Schmid
2
The Nature of Nanotechnology
3
Günter
Schmid
2.1
Definition
3
2.2
From Nanoscience to Nanotechnology
8
2.2.1
Molecular Motors and Machines
9
2.2.2
Molecular Switches
15
2.2.3
Single-Electron Memories
18
2.2.4
Drug Delivery
21
2.2.5
Gene Chips
25
2.2.6
Hyperthermia
27
2.2.7
Gas Sensors
28
2.3
Technologies on the Nanoscale
31
2.3.1
Introduction
31
2.3.2
Structured Surfaces
31
2.4
Final Remarks
35
References
36
3
Top-Down Versus Bottom-Up
41
WolfgangJ. Parak,
Friedrich
С.
Símmel,
and Alexander
W. Holleitner
3.1
Introduction
41
3.1.1
Top-Down Strategies
43
3.1.2
Bottom-Up Strategies
46
3.2
First Example: Nanotweezers
48
3.2.1
Top-Down Nanotweezers
48
VI
Contents
3.2.2
Bottom-Up Nanotweezers
51
3.3
Second Example: Nanomotors
52
3.3.1
Top-Down Nanomotors
52
3.3.2
Bottom-Up Nanomotors
54
3.4
Third Example: Patterning
56
3.4.1
Soft lithography
56
3.4.2 Two-Dimensional DNA
Lattices
57
3.5
Fourth Example: Quantum Dots
58
3.5.1
Different Methods for Making Quantum Dots
58
3.5.2
lithographically Defined Quantum Dots
59
3.5.3
Epitaxially Self-Assembled Quantum Dots
61
3.5.4
Colloidal Quantum Dots
62
3.6
Perspectives and limits of Top-Down and Bottom-Up
Approaches
64
References
66
4
Fundamental Principles of Quantum Dots
73
WolfgangJ. Parak,
Liberato
Manna, and Thomas Nann
4.1
Introduction and Outline
73
4.1.1
Nanoscale Science and Technology
73
4.2
Nanoscale Materials and Quantum Mechanics
75
4.2.1
Nanoscale Materials are Intermediates Between Atomic and
Bulk Matter
75
4.2.2
Quantum Mechanics
76
4.3
From Atoms to Molecules and Quantum Dots
77
4.4
Shrinking Bulk Material to a Quantum Dot
81
АЛЛ
Three-Dimensional Systems (Bulk Material)
81
4.4.2
Two-Dimensional Systems
85
4.4.3
One-Dimensional Systems (Quantum Wires)
88
АЛЛ
Zero-Dimensional Systems (Quantum Dots)
90
4.5
Energy Levels of a (Semiconductor) Quantum Dot
91
References
95
5
Fundamentals and Functionality of Inorganic Wires, Rods
and Tubes
97
JörgJ.
Schneider, Alexander
Popp,
and
Jörg Engstier
5.1
Introduction
97
5.2
Physical Properties of ID Structures
99
5.3
Synthetic Methods for ID Structures
100
5.3.1
The Template Approach
101
5.3.2
Electrochemical Techniques
204
5.3.2.1
Elecrrospinning
104
5.3.2.2
Electrophoretic Deposition
105
5.3.3
Vapor-Liquid-Solid (VLS) and Related Synthesis Techniques
106
Contenu
VII
5.4
Contacting the Outer World: Nanowires and Nanotubes as
Building Blocks in Nano/Micro/Macro-Integration
110
5.4.1
Nanowire and Nanotube Sensors 111
5.4.2
Piezoelectrics Based on Nanowire Arrays
118
5.4.3
With Nanowires and Nanotubes to Macroelectronics
120
5.4.3.1
Inorganic Nanowire and Nanotube Transistors
120
5.4.3.2
Branched Nanowire Structures
129
5.5
Outlook
132
References
132
6
Biomolecule-Nanoparticle Hybrid Systems
139
Maya Zayats and Itamar Willner
6.1
Introduction
139
6.2
Metal Nanoparticles for Electrical Contacting of
Redox
Proteins
140
6.3
Metal Nanoparticles as Electrochemical and Catalytic Labels
141
6.4
Metal Nanoparticles as Microgravimetric Labels
149
6.5
Semiconductor Nanoparticles as Electrochemical Labels for
Biorecognition Events
153
6.6
Metal Nanoparticles as Optical Labels for Biorecognition Events
155
6.7
Semiconductor Nanoparticles as Optical Labels
172
6.8
Semiconductor Nanoparticles for Photoelectrochemical
Applications
179
6.9
Biomolecules as Catalysts for the Synthesis of Nanoparticles
188
6.10
Biomolecule Growth of Metal Nanowires
196
6.11
Conclusions and Perspectives
205
References
208
7
Philosophy of Nanotechnoscience
217
Alfred
Nordmann
7.1
Introduction: Philosophy of Science and of
Technoscience
217
7.2
From "Closed Theories" to Limits of Understanding and
Control
219
7.2.1
Closed Relative to the Nanoscale
219
7.2.2
Applying Theory to the Nanoscale: Fitting Versus Stretching
221
7.2.3
Mute Complexity
224
7.3
From Successful Methods to the Power of Images
226
7.3.1
(Techno)scientific Methodology: Quantitative Versus
Qualitative
226
7.3.2
"Ontological Indifference": Representation Versus
Substitution
227
7.3.3
Images as the Beginning and End of Nanotechnologies
229
7
Λ
From Definitions to Visions
231
7
A.I Wieldy and Unwieldy Conceptions
231
7.4.2
Unlimited Potential
231
7.4.3
A Formidable Challenge
233
VIII Contents
7.5
From
Epistemic
Certainty to Systemic Robustness
236
7.5.1
What Do Nanoscientists Know?
236
7.5.2
The Knowledge Society
236
7.5.3
Social Robustness
237
7.6
What Basic Science Does Nanotechnology Need?
238
References
241
8
Ethics of Nanotechnology. State of the Art and Challenges Ahead
245
Armin
Grunwald
8.1
Introduction and Overview
245
8.2
The Understanding of Ethics
246
8.3
Ethical Aspects of Nanotechnology
-
an Overview
248
8.3.1
Equity: Just Distribution of Opportunities and Risks
249
8.3.2
Environmental Issues
250
8.3.3
Privacy and Control
253
8.3.4
Military Use of Nanotechnology
254
8.3.5
Health
255
8.3.6
Artificial Life
257
8.3.7
Human Enhancement
258
8.4
Nanopartides and the Precautionary Principle
260
8.4.1
The Risk Debate on Nanopartides
260
8.4.2
The Precautionary Principle
261
8.4.3
The Precautionary Principle Applied to Nanopartides
264
8.5
Human Enhancement by Converging Technologies
267
8.5.1
Human Enhancement: Visions and Expectations
268
8.5.2
Occasions of Choice and Need for Orientation
270
8.5.3
Human Enhancement
-
No Simple Answers from Ethics
270
8.5.4
Enhancement Technologies
-
A Marketplace Scenario Ahead?
273
8.6
Conceptual and Methodical Challenges
275
8.6.1
Ethical Assessments of Uncertain Futures
275
8.6.2
Ethical Vision Assessment
277
8.6.3
Ethical Reflection in Technology Foresight
279
8.6.4
Concomitant Ethical Reflection on Nanotechnology
280
References
282
9
Outlook and Consequences
287
Günter
Schmid
References
288
Index
289 |
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| index_date | 2024-07-02T20:22:37Z |
| indexdate | 2024-07-09T21:13:48Z |
| institution | BVB |
| isbn | 9783527317325 |
| language | English |
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| spelling | Nanotechnology 1 Principles and fundamentals G. Schmid ... (eds.) Weinheim Wiley-VCH 2008 X, 300 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Nanotechnologie (DE-588)4327470-5 gnd rswk-swf Nanotechnologie (DE-588)4327470-5 s DE-604 Schmid, Günter 1937- Sonstige (DE-588)13573097X oth (DE-604)BV023237305 1 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016422915&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Nanotechnology Nanotechnologie (DE-588)4327470-5 gnd |
| subject_GND | (DE-588)4327470-5 |
| title | Nanotechnology |
| title_auth | Nanotechnology |
| title_exact_search | Nanotechnology |
| title_exact_search_txtP | Nanotechnology |
| title_full | Nanotechnology 1 Principles and fundamentals G. Schmid ... (eds.) |
| title_fullStr | Nanotechnology 1 Principles and fundamentals G. Schmid ... (eds.) |
| title_full_unstemmed | Nanotechnology 1 Principles and fundamentals G. Schmid ... (eds.) |
| title_short | Nanotechnology |
| title_sort | nanotechnology principles and fundamentals |
| topic | Nanotechnologie (DE-588)4327470-5 gnd |
| topic_facet | Nanotechnologie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016422915&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV023237305 |
| work_keys_str_mv | AT schmidgunter nanotechnology1 |