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E-grāmata: Bionanotechnology: Proteins to Nanodevices

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  • Formāts: PDF+DRM
  • Izdošanas datums: 12-Oct-2006
  • Izdevniecība: Springer-Verlag New York Inc.
  • Valoda: eng
  • ISBN-13: 9781402043758
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Bionanotechnology: Proteins to NanodevicesPalielināt
  • Formāts: PDF+DRM
  • Izdošanas datums: 12-Oct-2006
  • Izdevniecība: Springer-Verlag New York Inc.
  • Valoda: eng
  • ISBN-13: 9781402043758
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Bionanotechnology is the key integrative technology of the 21st century and aims to use the knowledge, gathered from the natural construction of cellular systems, for the advancement of science and engineering. Investigating the topology and communication processes of cell parts can lead to invention of novel biological devices with exciting applications. Though microscale to nanoscale research offers an excellent space for the development of futuristic technologies, a number of challenges must be overcome. Due to paucity of a dedicated literature on the protein based nanodevices we bring you this monograph that combines collective research works of scientists probing into this fascinating universe of bionanotechnology. The monograph has been written with an aim of surveying engineering design principles of biomolecular nanodevices, prototype nanodevices based on redox proteins, bacteriorhodopsins and natural fibers, and touching upon the future developments in the field.

Recenzijas

From the reviews:









"Bionanotechnology is a new and exciting field of study. This is a fine attempt to bring together some review articles on frontier areas of the subject, with particular reference to proteins as nanosystems. The editors have assembled a panel of eminent scientists who have authored the book. The reviews are well written and are readable. this would be a useful source of information on selected areas of Bionanotechnology to the more serious learners of the subject. " (V.Lakshminarayanan, Journal of Ecobiology, Vol. 19 (1), 2006)

Preface ix
Proteins to Nanodevices xi
Bionanotechnology: Proteins to Nanodevices xiii
Design Principles for Self-Assembling Devices from Macromolecules
1(8)
F. Raymond Salemme
Metalloprotein-Based Electronic Nanodevices
9(16)
Ross Rinaldi
Giuseppe Maruccio
Adriana Biasco
Pier Paolo Pompa
Alessandro Bramanti
Valentina Arima
Paolo Visconti
Stefano D'amico
Eliana D'Amonne
Roberto Cingolani
Mechanical Consequences of Biomolecular Gradients in Byssal Threads
25(14)
J. Herbert Waite
James C. Weaver
Eleonora Vaccaro
Bacteriorhodopsin-Based 3D Optical Memory
39(22)
B. Xi
Kevin J. Wise
Jeffrey A. Stuart
Robert R. Birge
Spider Silk Production
61(18)
Randolph V. Lewis
A Projection Display Based on a Bacteriorhodopsin Thin Film
79(18)
L. Lindvold
H. Lausen
The Role of Collagen in Energy Storage and Dissipation in Extracellular Matrix
97(20)
Frederick H. Silver
Joseph W. Freeman
Istvan Horvath
Gino Bradica
Enhancement of Protein Thermal Stability: Toward the Design of Robust Proteins for Bionanotechnological Applications
117(24)
V. Renugopalakrishnan
X. Wei
G. Narasimhan
C. S. Verma
Pingzuo Li
A. Anumanthan
Deciphering Engineering Principles for the Design of Protein-Based Nanomachines
141(48)
Dan W. Urry
Bioprocessing of Silk Proteins-Controlling Assembly
189(20)
Hyoung-Joon Jin
Jaehyung Park
Regina Valluzi
Ung-Jin Kim
Peggy Cebe
David L. Kaplan
Nanobiotechnology Enables New Opportunities in Material Sciences: Bacteriorhodopsin as a First Example
209(8)
Norbert Hampp
Synthetic Photorefractive and Photochromic Materials and Their Comparison With Bacteriorhodopsin Mutants for Optical Information Processing
217(40)
Andrzej Miniewicz
V. Renugopalakrishnan
Submonolayer Measurements of Adsorbed Proteins in Microfluidic Channels
257(18)
David Henry
Keith Lenghaus
Kerry A. Wilson
Melissa Hirsch-Kuchma
Jerry Jenkins
Shankar Sundaram
James J. Hickman
Programs of the European Commission on Organic Materials for the Electronics Industry
275(8)
Dr Anne F. de Baas
Biodiversity: An Archive of Opportunity for Nanodevices
283
Paul Galvin
Dennis A. Dempsey
Alan O'Riordan
Gareth Redmond
Eric Moore
W. Shannon Dillmore
Marin Gheorghe


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