This article reviews our recent theoretical development toward understanding the interplay of electronic structure and dephasing effects on charge transfer/transport through molecular donor-bridge-acceptor systems. Both the generalized scattering matrix and Green's function formalisms for partially incoherent tunneling processes are summarized. Presented is also an exact mapping between the kinetic rate constants and the electric conductances in evaluation of chemical yields of sequential charge transfer in the presence of competing branching reactions. As an important example, the mechanism of long-range charge transfer in DNA in aqueous solution is investigated with a quantum chemistry implementation of the generalized Green's function fo...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
Abstract. Numerous experiments on charge transfer in DNA yield a contradictory picture of the transf...
Absolute rates of hole transfer between guanine nucleobases separated by one or two A:T base pairs i...
A quantum chemistry based Green's function formulation of long-range charge transfer in deoxyribose ...
This thesis focuses on two of the most active fields of chemical physics. One is long-range charge t...
A formulation that readily allows quantitative comparisons with experimental chemical yields in long...
Abstract: Long-distance transfer of a positive charge through DNA can be described by a hopping mode...
The mechanism of hole charge transfer in DNA of various lengths and sequences is investigated based ...
A theory for electron transfer through a donor−bridge−acceptor system is described that involves tun...
In this work, we address the phenomenon of charge transport in DNA using a simple, but chemically sp...
In Chap. 4, Koslowski and Cramer address the phenomenon of charge transport in DNA using a simple, b...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
Long-distance transfer of a positive charge through DNA can be described by a hopping model. In doub...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
Abstract. Numerous experiments on charge transfer in DNA yield a contradictory picture of the transf...
Absolute rates of hole transfer between guanine nucleobases separated by one or two A:T base pairs i...
A quantum chemistry based Green's function formulation of long-range charge transfer in deoxyribose ...
This thesis focuses on two of the most active fields of chemical physics. One is long-range charge t...
A formulation that readily allows quantitative comparisons with experimental chemical yields in long...
Abstract: Long-distance transfer of a positive charge through DNA can be described by a hopping mode...
The mechanism of hole charge transfer in DNA of various lengths and sequences is investigated based ...
A theory for electron transfer through a donor−bridge−acceptor system is described that involves tun...
In this work, we address the phenomenon of charge transport in DNA using a simple, but chemically sp...
In Chap. 4, Koslowski and Cramer address the phenomenon of charge transport in DNA using a simple, b...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
Long-distance transfer of a positive charge through DNA can be described by a hopping model. In doub...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
Abstract. Numerous experiments on charge transfer in DNA yield a contradictory picture of the transf...
Absolute rates of hole transfer between guanine nucleobases separated by one or two A:T base pairs i...