Charge Migration in DNA
Physics, Chemistry and Biology Perspectives
Tapash Chakraborty
Canada Research Chair Professor
University of Manitoba, Winnipeg, Canada
(Berlin, Heidelberg, New York 2007)
List of Contents
- T. Chakraborty,
Preface
[pdf]
- G. Cuniberti, E. Macia, A. Rodriguez,
and R. Römer,
Tight-binding Modeling of Charge Migration in DNA
Devices
- F.C. Grozema and L.D.A. Siebbeles,
Mechanism and Absolute Rates of Charge Transfer
Through DNA
- Y.A. Berlin and M.A. Ratner,
Variable-range Charge Hopping in DNA
- T. Koslowski and T. Cramer,
Atomistic Models of DNA Charge Transfer
- V. Apalkov, X.F. Wang and T. Chakraborty,
Physics Aspects of Charge Migration Through DNA
- Y. Asai and T. Shimazaki,
Vibronic Mechanism for Charge Transport and Migration
Through DNA and Single Molecules
- D. Becker, A. Adhikary, and M.D. Sevilla,
The Role of Charge and Spin Migration in DNA
Radiation Damage
- E. Macia,
DNA-based Thermoelectric Nanodevices: A Theoretical Prospect
- M. Xu, R.G. Endres, and Y. Arakawa,
Transverse Electronic Signature of DNA
for Electronic Sequencing
- T. Fiebig,
DNA Photonics: Probing Light-induced Dynamics in DNA
on the Femtosecond Time Scale
- B.B. Schmidt, E.B. Starikov,
M.H. Hettler, and W. Wenzel,
Vibrons in DNA: Their Influence on Transport
- M. Fischler and U. Simon,
DNA-based Assembly of Metal Nanoparticles: Structures
and Functionality
- Subject Index
[pdf]
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