Universitat de Girona
We include solvation effects in tight-binding Hamiltonians for hole states in DNA. The corresponding linear-response parameters are derived from accurate estimates of solvation energy calculated for several hole charge distributions in DNA stacks. Two models are considered: (A) the correction to a diagonal Hamiltonian matrix element depends only on the charge localized on the corresponding site and (B) in addition to this term, the reaction field due to adjacent base pairs is accounted for. We show that both schemes give very similar results. The effects of the polar medium on the hole distribution in DNA are studied. We conclude that the effects of polar surroundings essentially suppress charge delocalization in DNA, and hole states in (GC)n sequences are localized on individual guanines
Article
Anglès
ADN; Dinàmica molecular; Electrònica molecular; Electrons; Sistemes hamiltonians; Poisson, Distribució de; Solvatació; Transferència de càrrega; Charge transfer; DNA; Hamiltonian systems; Molecular dynamics; Molecular electronics; Poisson distribution; Solvation
American Institute of Physics
info:eu-repo/semantics/altIdentifier/doi/10.1063/1.1924551
info:eu-repo/semantics/altIdentifier/issn/0021-9606
info:eu-repo/semantics/altIdentifier/eissn/1089-7690
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