A01=Andrey A. Demidov
A01=David L. Andrews
areas
Author_Andrey A. Demidov
Author_David L. Andrews
between molecules
biophysics
Category=PHM
Category=PNFS
Category=PNR
central
chemistry
commonly
crystals
energy
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
example
excitation
frster
important area
many
mechanism
migration
modern
photosynthetic
physics
process
resonance
systems
transfer
within
Product details
- ISBN 9780471987321
- Weight: 936g
- Dimensions: 160 x 238mm
- Publication Date: 23 Mar 1999
- Publisher: John Wiley & Sons Inc
- Publication City/Country: US
- Product Form: Hardback
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Resonance Energy Transfer
The resonance transfer of energy between molecules, or between sites within a large molecule, plays a central role in many areas of modern chemistry and physics. In biophysics, for example, this process defines the migration of excitation energy within photosynthetic systems (commonly the Frster mechanism). Another important area is in crystals, laser and other laser materials.
Resonance Energy Transfer contains a large amount of cutting-edge research which has never before appeared in book form. It is the first comprehensive modern survey of the field, offering a broad, yet detailed view of the mechanisms of energy transfer. The broad range of applications of fluorescence and fluorescence energy transfer to studies in molecular biology and biotechnology ensures that resonance energy transfer will be a vital component of the new science and technology of the next millenium.
This book is written for those working with materials, both experimentally and theoretically, as well as for biophysicists and biochemists interested in studying protein structure and dynamics.
ISBN 0 471 987328 (Cloth)
Foreword supplied by Professor Graham Fleming FRS, University of California, Berkeley, USA.
Cover shows the Peripheral Light Harvesting Complex (LH2) of Rps.acidophila kindly supplied by Dr. Stephen M. Prince, University of Glasgow, UK.
The resonance transfer of energy between molecules, or between sites within a large molecule, plays a central role in many areas of modern chemistry and physics. In biophysics, for example, this process defines the migration of excitation energy within photosynthetic systems (commonly the Frster mechanism). Another important area is in crystals, laser and other laser materials.
Resonance Energy Transfer contains a large amount of cutting-edge research which has never before appeared in book form. It is the first comprehensive modern survey of the field, offering a broad, yet detailed view of the mechanisms of energy transfer. The broad range of applications of fluorescence and fluorescence energy transfer to studies in molecular biology and biotechnology ensures that resonance energy transfer will be a vital component of the new science and technology of the next millenium.
This book is written for those working with materials, both experimentally and theoretically, as well as for biophysicists and biochemists interested in studying protein structure and dynamics.
ISBN 0 471 987328 (Cloth)
Foreword supplied by Professor Graham Fleming FRS, University of California, Berkeley, USA.
Cover shows the Peripheral Light Harvesting Complex (LH2) of Rps.acidophila kindly supplied by Dr. Stephen M. Prince, University of Glasgow, UK.
David L. Andrews, School of Chemical Sciences, University of East Anglia, GB. Highly respected and has made major interesting contributions in the field. His works are very deep and illuminating. Professor Andrews has also published in condensed matter QED, though not to the same extent. One of his books has gone to a third edition, and another has been reprinted.
