Add to ORKGThe authors report results from computational studies of the interaction of low-energy electrons with the purine bases of DNA, adenine and guanine, as well as with the associated nucleosides, deoxyadenosine and deoxyguanosine, and the nucleotide deoxyadenosine monophosphate. Their calculations focus on the characterization of the pi* shape resonances associated with the bases and also provide general information on the scattering of slow electrons by these targets. Results are obtained for adenine and guanine both with and without inclusion of polarization effects, and the resonance energy shifts observed due to polarization are used to predict pi* resonance energies in associated nucleosides and nucleotides, for which static-exchange calcu...
Scattering calculations for low-energy electron collisions withgas-phase DNA pyrimidine bases (cytos...
The intrinsic ionization energy of a base in DNA plays a critical role in determining the energies a...
Abstract: The last decade has witnessed immense advances in our understanding of the effects of ioni...
The authors report results from computational studies of the interaction of low-energy electrons wit...
We report on results of computational studies of the interaction of slow electrons with the purine a...
We review recent theoretical work on low-energy electron collisions with the constituents of DNA and...
We have studied gas-phase collisions between slow electrons and uracil molecules with a view to unde...
We report on results of recent studies of collisions of low-energy electrons with nucleobases and ot...
We report recent progress in applying the Schwinger multichannel computational method to the interac...
R-matrix calculations on electron collisions with the purine bases found in DNA and RNA (i.e., adeni...
Injection of electrons into the empty π* molecular orbitals of uracil and the DNA bases creates shor...
Recent years have witnessed an increase of the interest in the studies of the interaction of electro...
Calculations are carried out to determine elastic scattering cross sections and resonance energies f...
In the context of damage to DNA by low-energy electrons, we carry out calculations of electron scatt...
We extended our earlier study on single strand break (SSB) formation in DNA induced by low-energy el...
Scattering calculations for low-energy electron collisions withgas-phase DNA pyrimidine bases (cytos...
The intrinsic ionization energy of a base in DNA plays a critical role in determining the energies a...
Abstract: The last decade has witnessed immense advances in our understanding of the effects of ioni...
The authors report results from computational studies of the interaction of low-energy electrons wit...
We report on results of computational studies of the interaction of slow electrons with the purine a...
We review recent theoretical work on low-energy electron collisions with the constituents of DNA and...
We have studied gas-phase collisions between slow electrons and uracil molecules with a view to unde...
We report on results of recent studies of collisions of low-energy electrons with nucleobases and ot...
We report recent progress in applying the Schwinger multichannel computational method to the interac...
R-matrix calculations on electron collisions with the purine bases found in DNA and RNA (i.e., adeni...
Injection of electrons into the empty π* molecular orbitals of uracil and the DNA bases creates shor...
Recent years have witnessed an increase of the interest in the studies of the interaction of electro...
Calculations are carried out to determine elastic scattering cross sections and resonance energies f...
In the context of damage to DNA by low-energy electrons, we carry out calculations of electron scatt...
We extended our earlier study on single strand break (SSB) formation in DNA induced by low-energy el...
Scattering calculations for low-energy electron collisions withgas-phase DNA pyrimidine bases (cytos...
The intrinsic ionization energy of a base in DNA plays a critical role in determining the energies a...
Abstract: The last decade has witnessed immense advances in our understanding of the effects of ioni...