Add to ORKGSingle and double strand breaks in DNA can be caused by low-energy electrons, the most abundant secondary products of the interaction of ionizing radiation to the biological matter. Attachment of these electrons to biomolecules lead to the formation of transient negative ions (TNIs) [1], often referred to as resonances, a process that may lead to significant vibrational excitation and dissociation. In the present study, we employ the parallel version [2] of the Schwinger Multichannel Method implemented with pseudopotentials [3] to obtain the shape resonance spectrum of cytosine-guanine (CG) pairs, with special attention to π* transient anion states. Recent experimental studies pointed out a quasi-continuum vibrational excitation spectrum fo...
In this conference we report cross sections for elastic collisions of low-energy electrons with the ...
Hydrogen bonds are ubiquitous in nature and of fundamental importance to the chemical and physical p...
Proton/hydrogen-transfer processes have been broadly studied in the past 50 years to explain the pho...
Single and double strand breaks in DNA can be caused by low-energy electrons, the most abundant seco...
We employed elastic scattering calculations, performed in the static exchange approximation, to inve...
The (HCOOH)(2) anion, formed by electron attachment to the formic acid dimer (FA(2)), is an archetyp...
Author Institution: Yale University, Department of Chemistry, New Haven, CTWe have isolated the stab...
The (HCOOH) 2 anion, formed by electron attachment to the formic acid dimer (FA 2), is an archetypal...
The collision-induced dissociation of the protonated cytosine-guanine pair was studied using tandem ...
Electron attachment dynamics to the guanine (G)–cytosine (C) base pair has been studied from a theor...
One-electron oxidized guanine (G•+) in DNA generates several short-lived intermediate radicals via p...
Dissociative electron attachment to formic acid as a fundamental center in enzymatic activity is stu...
Awareness of the harmful effects of radiation has increased interest in finding the mechanisms of DN...
The guanine–cytosine (GC) radical anion and its interaction with a single water molecule is studied ...
Proton transfers within the formic acid dimer are studied using various methods. Minimum atomic basi...
In this conference we report cross sections for elastic collisions of low-energy electrons with the ...
Hydrogen bonds are ubiquitous in nature and of fundamental importance to the chemical and physical p...
Proton/hydrogen-transfer processes have been broadly studied in the past 50 years to explain the pho...
Single and double strand breaks in DNA can be caused by low-energy electrons, the most abundant seco...
We employed elastic scattering calculations, performed in the static exchange approximation, to inve...
The (HCOOH)(2) anion, formed by electron attachment to the formic acid dimer (FA(2)), is an archetyp...
Author Institution: Yale University, Department of Chemistry, New Haven, CTWe have isolated the stab...
The (HCOOH) 2 anion, formed by electron attachment to the formic acid dimer (FA 2), is an archetypal...
The collision-induced dissociation of the protonated cytosine-guanine pair was studied using tandem ...
Electron attachment dynamics to the guanine (G)–cytosine (C) base pair has been studied from a theor...
One-electron oxidized guanine (G•+) in DNA generates several short-lived intermediate radicals via p...
Dissociative electron attachment to formic acid as a fundamental center in enzymatic activity is stu...
Awareness of the harmful effects of radiation has increased interest in finding the mechanisms of DN...
The guanine–cytosine (GC) radical anion and its interaction with a single water molecule is studied ...
Proton transfers within the formic acid dimer are studied using various methods. Minimum atomic basi...
In this conference we report cross sections for elastic collisions of low-energy electrons with the ...
Hydrogen bonds are ubiquitous in nature and of fundamental importance to the chemical and physical p...
Proton/hydrogen-transfer processes have been broadly studied in the past 50 years to explain the pho...