The mechanism of hole charge transfer in DNA of various lengths and sequences is investigated based on a partially coherent tunneling theory (Zhang et al., J Chem Phys 117:4578, 2002), where the effects of phase-breaking in adenine-thymine and guanine-cytosine base pairs are treated on equal foot. This work aims at providing a self-consistent microscopic interpretation for rate experiments on various DNA systems. We will also clarify the condition under which the simple superexchange-mediated-hopping picture is valid, and make some comments on the further development of present theory
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
Recent experiments indicated that disorder effect in deoxyribonucleic acid (DNA) may lead to a trans...
The mechanism of hole charge transfer in DNA of various lengths and sequences is investigated based ...
This article reviews our recent theoretical development toward understanding the interplay of electr...
A formulation that readily allows quantitative comparisons with experimental chemical yields in long...
This thesis focuses on two of the most active fields of chemical physics. One is long-range charge t...
In the framework of a multistep mechanism in which environmental motion triggers comparatively faste...
Abstract. Numerous experiments on charge transfer in DNA yield a contradictory picture of the transf...
A theory for electron transfer through a donor−bridge−acceptor system is described that involves tun...
A quantum chemistry based Green's function formulation of long-range charge transfer in deoxyribose ...
In this work, we address the phenomenon of charge transport in DNA using a simple, but chemically sp...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
In Chap. 4, Koslowski and Cramer address the phenomenon of charge transport in DNA using a simple, b...
Abstract: Long-distance transfer of a positive charge through DNA can be described by a hopping mode...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
Recent experiments indicated that disorder effect in deoxyribonucleic acid (DNA) may lead to a trans...
The mechanism of hole charge transfer in DNA of various lengths and sequences is investigated based ...
This article reviews our recent theoretical development toward understanding the interplay of electr...
A formulation that readily allows quantitative comparisons with experimental chemical yields in long...
This thesis focuses on two of the most active fields of chemical physics. One is long-range charge t...
In the framework of a multistep mechanism in which environmental motion triggers comparatively faste...
Abstract. Numerous experiments on charge transfer in DNA yield a contradictory picture of the transf...
A theory for electron transfer through a donor−bridge−acceptor system is described that involves tun...
A quantum chemistry based Green's function formulation of long-range charge transfer in deoxyribose ...
In this work, we address the phenomenon of charge transport in DNA using a simple, but chemically sp...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
In Chap. 4, Koslowski and Cramer address the phenomenon of charge transport in DNA using a simple, b...
Abstract: Long-distance transfer of a positive charge through DNA can be described by a hopping mode...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
Recent experiments indicated that disorder effect in deoxyribonucleic acid (DNA) may lead to a trans...