Theoretical study of excited states of DNA base dimers and tetramers using optimally tuned range-separated density functional theory.
about
Prediction of excited-state properties of oligoacene crystals using polarizable continuum model-tuned range-separated hybrid functional approach.Excited state dynamics for hybridized local and charge transfer state fluorescent emitters with aggregation-induced emission in the solid phase: a QM/MM study.Challenges in Simulating Light-Induced Processes in DNADynamics of the excited-state hydrogen transfer in a (dG)·(dC) homopolymer: intrinsic photostability of DNA
P2860
Theoretical study of excited states of DNA base dimers and tetramers using optimally tuned range-separated density functional theory.
description
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Theoretical study of excited s ...... ted density functional theory.
@en
Theoretical study of excited s ...... ted density functional theory.
@nl
type
label
Theoretical study of excited s ...... ted density functional theory.
@en
Theoretical study of excited s ...... ted density functional theory.
@nl
prefLabel
Theoretical study of excited s ...... ted density functional theory.
@en
Theoretical study of excited s ...... ted density functional theory.
@nl
P2093
P2860
P356
P1476
Theoretical study of excited s ...... ted density functional theory.
@en
P2093
Cheng Zhong
Haitao Sun
Shian Zhang
Zhenrong Sun
P2860
P304
P356
10.1002/JCC.24266
P577
2015-12-15T00:00:00Z