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The Resource Nanofabrication and biosystems : integrating materials science, engineering, and biology, edited by Harvey C. Hoch, Lynn W. Jelinski, Harold G. Craighead

Nanofabrication and biosystems : integrating materials science, engineering, and biology, edited by Harvey C. Hoch, Lynn W. Jelinski, Harold G. Craighead

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The item Nanofabrication and biosystems : integrating materials science, engineering, and biology, edited by Harvey C. Hoch, Lynn W. Jelinski, Harold G. Craighead represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Boston University Libraries.
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Summary: This book, whose origin was an international conference held in Hawaii, discusses nano- and microfabrication, and how biologists are using such fabricated devices in their research. The goal of the book is to inform materials scientists and engineers about the needs of biologists, and, equally, to inform biologists about how nano- and microscale fabrication may help to shed light on their own particular research problems. The book also aims to stimulate innovative, productive interactions among materials scientists, engineers, and biologists, and to explore ways in which materials scientists and engineers can exploit biological principles and biological assemblies to produce new and ever smaller devices. In addition to serving as a resource for scientists in the field, the book is intended for any biologist or physical scientist who wishes to understand the current state of the art and what research is currently being done using biological microfabrication

Language: eng

Work

Publication

Cambridge | New York, NY, USA, Cambridge University Press, 1996

Extent: xviii, 423 pages

Contents

3.
The development and application of micromechanical devices in biosystems
K.D. Wise
4.
Microsensors and microactuators for biomedical applications
M. Esashi
5.
The use of micromachined structures for the manipulation of biological objects
M. Washizu
6.
Introduction -- The frontiers and challenges
Light-addressable potentiometric sensor: applications to drug discovery
H.M. McConnell
7.
A surface plasmon resonance biosensor for characterization of biospecific interactions
M. Malmqvist
8.
Standard test targets for high-resolution light microscopy
R. Oldenbourg, S. Inoue, R. Tiberio, A. Stemmer, G. Mei and M. Skvarla
9.
Development of voltammetric methods, capillary electrophoresis and TOF SIMS imaging for constituent analysis of single cells
L.W. Jelinski, H.C. Hoch and H.G. Craighead
P. Beyer Hietpas, S.D. Gilman, R.A. Lee, M.R. Wood, N. Winograd and A.G. Ewing
10.
Scanning force microscopy of biological macromolecules: present and future
C. Bustamante, D.A. Erie and G. Yang
11.
Nanoscale structures engineered by molecular self-assembly of funtionalized monolayers
D.L. Allara
12.
Biofunctionalized membranes on solid surfaces
R. Tampe, C. Dietrich, S. Gritsch, G. Elender and L. Schmitt
1.
13.
Molecular assembly technology for biosensors
M. Aizawa, K. Nishiguchi, M. Imamura, E. Kobatake, T. Haruyama and Y. Ikariyama
14.
Self-organized ordered growth of III-V semiconductor quantum wires
K.H. Ploog
15.
Formation of a simple model brain on microfabricated electrode arrays
A. Kawana
16.
High-resolution lithographic techniques for semiconductor nanofabrication
Cellular engineering: control of cell-substrate interactions
P.E. Hockberger, B. Lom, A. Soekarno, C.H. Thomas and K.E. Healy
17.
Microcontrol of neuronal outgrowth
H.M. Buettner
18.
Microfabricated surfaces in signaling for cell growth and differentiation in fungi
H.C. Hoch, R.J. Bojko, G.L. Comeau and D.A. Lilienfeld
19.
Effects of surface topography of implant materials on cell behavior in vitro and in vivo
A. Forchel, P. Ils, R. Steffen and M. Bayer
D.M. Brunette
20.
Cell and neuron growth cone behavior on micropatterned surfaces
P. Clark
21.
Force generation by the microtubule-based motor protein kinesin
F. Gittes, E. Meyhofer, S. Baek, D. Coy, B. Mickey and J. Howard
22.
Contemporary problems in biology: contractile materials
G.H. Pollack
2.
23.
Technology needs for the Human Genome Project
D.T. Burke
Principles of materials etching
R. Germann

Isbn: 9780521462648

Instance

Label: Nanofabrication and biosystems : integrating materials science, engineering, and biology

Title: Nanofabrication and biosystems

Title remainder: integrating materials science, engineering, and biology

Statement of responsibility: edited by Harvey C. Hoch, Lynn W. Jelinski, Harold G. Craighead

Contributor

Subject

Genre

Congresses

Language: eng

Summary: This book, whose origin was an international conference held in Hawaii, discusses nano- and microfabrication, and how biologists are using such fabricated devices in their research. The goal of the book is to inform materials scientists and engineers about the needs of biologists, and, equally, to inform biologists about how nano- and microscale fabrication may help to shed light on their own particular research problems. The book also aims to stimulate innovative, productive interactions among materials scientists, engineers, and biologists, and to explore ways in which materials scientists and engineers can exploit biological principles and biological assemblies to produce new and ever smaller devices. In addition to serving as a resource for scientists in the field, the book is intended for any biologist or physical scientist who wishes to understand the current state of the art and what research is currently being done using biological microfabrication

Cataloging source: DLC

Illustrations: illustrations

Index: index present

LC call number: TP248.2

LC item number: .N36 1996

Literary form: non fiction

NAL call number: TP248.2.N36

NAL item number: 1996

Nature of contents: bibliography

NLM call number

1996 K-084
TP 248.2

NLM item number: N186 1996

http://library.link/vocab/relatedWorkOrContributorName

Hoch, Harvey C
Jelinski, Lynn
Craighead, Harold G

http://library.link/vocab/subjectName

Biotechnology
Nanotechnology
Biotechnology
Electronics
Surface Properties
Biotechnologie
Nanotechnologie
Biotechnology
Nanotechnology
Biotechnologie.
Nanotechnologie
Systèmes biologiques
Aufsatzsammlung
Biotechnologie
Nanotechnologie

Label: Nanofabrication and biosystems : integrating materials science, engineering, and biology, edited by Harvey C. Hoch, Lynn W. Jelinski, Harold G. Craighead

Instantiates

Nanofabrication and biosystems : integrating materials science, engineering, and biology

Publication

Cambridge | New York, NY, USA, Cambridge University Press, 1996

Bibliography note: Includes bibliographical references and index

Carrier category: volume

Carrier category code

Carrier MARC source: rdacarrier

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

3.
The development and application of micromechanical devices in biosystems
K.D. Wise
4.
Microsensors and microactuators for biomedical applications
M. Esashi
5.
The use of micromachined structures for the manipulation of biological objects
M. Washizu
6.
Introduction -- The frontiers and challenges
Light-addressable potentiometric sensor: applications to drug discovery
H.M. McConnell
7.
A surface plasmon resonance biosensor for characterization of biospecific interactions
M. Malmqvist
8.
Standard test targets for high-resolution light microscopy
R. Oldenbourg, S. Inoue, R. Tiberio, A. Stemmer, G. Mei and M. Skvarla
9.
Development of voltammetric methods, capillary electrophoresis and TOF SIMS imaging for constituent analysis of single cells
L.W. Jelinski, H.C. Hoch and H.G. Craighead
P. Beyer Hietpas, S.D. Gilman, R.A. Lee, M.R. Wood, N. Winograd and A.G. Ewing
10.
Scanning force microscopy of biological macromolecules: present and future
C. Bustamante, D.A. Erie and G. Yang
11.
Nanoscale structures engineered by molecular self-assembly of funtionalized monolayers
D.L. Allara
12.
Biofunctionalized membranes on solid surfaces
R. Tampe, C. Dietrich, S. Gritsch, G. Elender and L. Schmitt
1.
13.
Molecular assembly technology for biosensors
M. Aizawa, K. Nishiguchi, M. Imamura, E. Kobatake, T. Haruyama and Y. Ikariyama
14.
Self-organized ordered growth of III-V semiconductor quantum wires
K.H. Ploog
15.
Formation of a simple model brain on microfabricated electrode arrays
A. Kawana
16.
High-resolution lithographic techniques for semiconductor nanofabrication
Cellular engineering: control of cell-substrate interactions
P.E. Hockberger, B. Lom, A. Soekarno, C.H. Thomas and K.E. Healy
17.
Microcontrol of neuronal outgrowth
H.M. Buettner
18.
Microfabricated surfaces in signaling for cell growth and differentiation in fungi
H.C. Hoch, R.J. Bojko, G.L. Comeau and D.A. Lilienfeld
19.
Effects of surface topography of implant materials on cell behavior in vitro and in vivo
A. Forchel, P. Ils, R. Steffen and M. Bayer
D.M. Brunette
20.
Cell and neuron growth cone behavior on micropatterned surfaces
P. Clark
21.
Force generation by the microtubule-based motor protein kinesin
F. Gittes, E. Meyhofer, S. Baek, D. Coy, B. Mickey and J. Howard
22.
Contemporary problems in biology: contractile materials
G.H. Pollack
2.
23.
Technology needs for the Human Genome Project
D.T. Burke
Principles of materials etching
R. Germann

Dimensions: 27 cm

Extent: xviii, 423 pages

Isbn: 9780521462648

Lccn: 95010736

Media category: unmediated

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

System control number

(OCoLC)32310963
(OCoLC)ocm32310963

Label: Nanofabrication and biosystems : integrating materials science, engineering, and biology, edited by Harvey C. Hoch, Lynn W. Jelinski, Harold G. Craighead

Publication

Cambridge | New York, NY, USA, Cambridge University Press, 1996

Bibliography note: Includes bibliographical references and index

Carrier category: volume

Carrier category code

Carrier MARC source: rdacarrier

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

3.
The development and application of micromechanical devices in biosystems
K.D. Wise
4.
Microsensors and microactuators for biomedical applications
M. Esashi
5.
The use of micromachined structures for the manipulation of biological objects
M. Washizu
6.
Introduction -- The frontiers and challenges
Light-addressable potentiometric sensor: applications to drug discovery
H.M. McConnell
7.
A surface plasmon resonance biosensor for characterization of biospecific interactions
M. Malmqvist
8.
Standard test targets for high-resolution light microscopy
R. Oldenbourg, S. Inoue, R. Tiberio, A. Stemmer, G. Mei and M. Skvarla
9.
Development of voltammetric methods, capillary electrophoresis and TOF SIMS imaging for constituent analysis of single cells
L.W. Jelinski, H.C. Hoch and H.G. Craighead
P. Beyer Hietpas, S.D. Gilman, R.A. Lee, M.R. Wood, N. Winograd and A.G. Ewing
10.
Scanning force microscopy of biological macromolecules: present and future
C. Bustamante, D.A. Erie and G. Yang
11.
Nanoscale structures engineered by molecular self-assembly of funtionalized monolayers
D.L. Allara
12.
Biofunctionalized membranes on solid surfaces
R. Tampe, C. Dietrich, S. Gritsch, G. Elender and L. Schmitt
1.
13.
Molecular assembly technology for biosensors
M. Aizawa, K. Nishiguchi, M. Imamura, E. Kobatake, T. Haruyama and Y. Ikariyama
14.
Self-organized ordered growth of III-V semiconductor quantum wires
K.H. Ploog
15.
Formation of a simple model brain on microfabricated electrode arrays
A. Kawana
16.
High-resolution lithographic techniques for semiconductor nanofabrication
Cellular engineering: control of cell-substrate interactions
P.E. Hockberger, B. Lom, A. Soekarno, C.H. Thomas and K.E. Healy
17.
Microcontrol of neuronal outgrowth
H.M. Buettner
18.
Microfabricated surfaces in signaling for cell growth and differentiation in fungi
H.C. Hoch, R.J. Bojko, G.L. Comeau and D.A. Lilienfeld
19.
Effects of surface topography of implant materials on cell behavior in vitro and in vivo
A. Forchel, P. Ils, R. Steffen and M. Bayer
D.M. Brunette
20.
Cell and neuron growth cone behavior on micropatterned surfaces
P. Clark
21.
Force generation by the microtubule-based motor protein kinesin
F. Gittes, E. Meyhofer, S. Baek, D. Coy, B. Mickey and J. Howard
22.
Contemporary problems in biology: contractile materials
G.H. Pollack
2.
23.
Technology needs for the Human Genome Project
D.T. Burke
Principles of materials etching
R. Germann

Dimensions: 27 cm

Extent: xviii, 423 pages

Isbn: 9780521462648

Lccn: 95010736

Media category: unmediated

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

System control number

(OCoLC)32310963
(OCoLC)ocm32310963

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