Biological electron-transfer (ET) reactions are typically described in the framework of coherent two-state electron tunneling or multistep hopping. However, these ET reactions may involve multiple redox cofactors in van der Waals contact with each other and with vibronic broadenings on the same scale as the energy gaps among the species. In this regime, fluctuations of the molecular structures and of the medium can produce transient energy level matching among multiple electronic states. This transient degeneracy, or flickering electronic resonance among states, is found to support coherent (ballistic) charge transfer. Importantly, ET rates arising from a flickering resonance (FR) mechanism will decay exponentially with distance because the...
AbstractCentral to the view of electron-transfer reactions is the idea that nuclear motion generates...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
The ultrafast dynamics of electron transfer (ET) between bases in DNA have been determined to elucid...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
ConspectusThe image is not the thing. Just as a pipe rendered in an oil painting cannot be smoked, q...
Electron transfer (ET) reactions provide a nexus among chemistry, biochemistry, and physics. These r...
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...
This article reviews our recent theoretical development toward understanding the interplay of electr...
<p>Nature is challenged to move charge efficiently over many length scales. From sub-nm to μm dista...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
It is shown that the yields of oxidative damage observed in double-stranded DNA oligomers consisting...
Electron‐transfer processes are vital elements of energy transduction pathways in living cells. A un...
A theory for electron transfer through a donor−bridge−acceptor system is described that involves tun...
Electrons have so little mass that in less than a second they can tunnel through potential energy ba...
AbstractCentral to the view of electron-transfer reactions is the idea that nuclear motion generates...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
The ultrafast dynamics of electron transfer (ET) between bases in DNA have been determined to elucid...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
ConspectusThe image is not the thing. Just as a pipe rendered in an oil painting cannot be smoked, q...
Electron transfer (ET) reactions provide a nexus among chemistry, biochemistry, and physics. These r...
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...
This article reviews our recent theoretical development toward understanding the interplay of electr...
<p>Nature is challenged to move charge efficiently over many length scales. From sub-nm to μm dista...
Hole-mediated electronic couplings, reorganization energies, and electron transfer (ET) rates are ex...
It is shown that the yields of oxidative damage observed in double-stranded DNA oligomers consisting...
Electron‐transfer processes are vital elements of energy transduction pathways in living cells. A un...
A theory for electron transfer through a donor−bridge−acceptor system is described that involves tun...
Electrons have so little mass that in less than a second they can tunnel through potential energy ba...
AbstractCentral to the view of electron-transfer reactions is the idea that nuclear motion generates...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
The ultrafast dynamics of electron transfer (ET) between bases in DNA have been determined to elucid...