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BIBLIOGRAPHY
polymorphismsbymeansofelectricalconductancemeasurements.Proc.Natl.
Acad. Sci.USA,2005. 102,47,16979–16983.
[11] H. van Zalinge, D. J. Schiffrin, A. D. Bates, W. Haiss, J. Ulstrup, and R. J.
Nichols. Single-MoleculeConductanceMeasurementsofSingle-andDouble-
StrandedDNAOligonucleotides. ChemPhysChem,2006. 7,94–98.
[12] N. Kang, A. Erbe, andE. Scheer. Electrical characterization ofDNA inme-
chanically controlledbreak-junctions. NewJ.Phys.,2008. 10,023030.
[13] X. Guo, A. A. Gorodetsky, J. Hone, J. K. Barton, and C. Nuckolls. Con-
ductivity of a single DNAduplex bridging a carbon nanotube gap. Nature
Nanotechnol.,2008. 3,3,163–167.
[14] C. JoachimandM.A.Ratner.Molecularelectronics: Someviewsontransport
junctions andbeyond. Proc.Natl.Acad. Sci.USA,2005. 102,8801–8808.
[15] G.Cuniberti,G.Fagas, andK.Richter, editors. IntroducingMolecularElectron-
ics, volume680ofLectureNotes inPhysics. Springer, Berlin,2005.
[16] M. H. F. Wilkins, A. R. Stokes, and H. R. Wilson. Molecular structure of
nucleic acids: Molecular structure of deoxypentose nucleic acids. Nature,
1953. 171,4356,738–740.
[17] J. D. Watson and F. H. C. Crick. Molecular structure of nucleic acids: A
structure fordeoxyribosenucleic acid. Nature,1953. 171,4356,737–738.
[18] C. Bustamante, J. F.Marko, E.D. Siggia, andS. Smith. Entropic elasticity of
λ-phageDNA. Science,1994. 265,5178,1599–1600.
[19] P. Cluzel, A. Lebrun, C. Heller, R. Lavery, J.-L. Viovy, D. Chatenay, and
F.Caron. DNA:Anextensiblemolecule. Science,1996. 271,5250,792–794.
[20] S. B. Smith, Y. Cui, andC. Bustamante. Overstretching B-DNA: The elastic
responseof individualdouble-strandedandsingle-strandedDNAmolecules.
Science,1996. 271,5250,795–799.
[21] A. Lebrun and R. Lavery. Modelling extreme stretching of DNA. Nucleic
AcidsRes.,1996. 24,12,2260–2267.
[22] M. W. Konrad and J. I. Bolonick. Molecular dynamics simulation of DNA
stretching is consistent with the tension observed for extension and strand
126
Charge Transport in DNA
Insights from Simulations
- Titel
- Charge Transport in DNA
- Untertitel
- Insights from Simulations
- Autor
- Mario Wolter
- Verlag
- KIT Scientific Publishing
- Datum
- 2013
- Sprache
- englisch
- Lizenz
- CC BY-SA 3.0
- ISBN
- 978-3-7315-0082-7
- Abmessungen
- 17.0 x 24.0 cm
- Seiten
- 156
- Schlagwörter
- Charge Transport, Charge Transfer, DNA, Molecular Dynamics, Quantum Mechanics
- Kategorien
- Naturwissenschaften Chemie
Inhaltsverzeichnis
- Zusammenfassung 1
- Summary 3
- 1 Introduction 5
- 2 TheoreticalBackground 11
- 3 SimulationSetup 39
- 4 DNAUnderExperimentalConditions 49
- 5 ChargeTransport inStretchedDNA 69
- 6 ChargeTransport inMicrohydratedDNA 79
- 7 AParametrizedModel toSimulateCT inDNA 89
- 8 Conclusion 105
- Appendix 111
- A DNAUnderExperimentalConditions 111
- B CTinMicrohydratedDNA 117
- List ofPublications 137