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Daniel Kinzel
Researcher at University of Jena
Publications - 20
Citations - 254
Daniel Kinzel is an academic researcher from University of Jena. The author has contributed to research in topics: Excited state & Fluoromethane. The author has an hindex of 8, co-authored 20 publications receiving 204 citations. Previous affiliations of Daniel Kinzel include University of Vienna & Leibniz Institute of Photonic Technology.
Papers
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Spatial resolution of tip-enhanced Raman spectroscopy – DFT assessment of the chemical effect
Federico Latorre,Stephan Kupfer,Thomas Bocklitz,Thomas Bocklitz,Daniel Kinzel,Steffen Trautmann,Stefanie Gräfe,Volker Deckert,Volker Deckert +8 more
TL;DR: This work presents a full quantum chemical description (at the density functional level of theory) of the non-resonant chemical effects on the Raman spectrum of an adenine molecule mapped by a tip, modeled as a single silver atom or a small silver cluster.
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Photo-Induced or Plasmon-Induced Reaction: Investigation of the Light-Induced Azo-Coupling of Amino Groups
TL;DR: This study suggests that plasmon-induced hot electrons provide the necessary activation energy for the azo-coupling of D3ATP without the need for O2.
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Photochemistry and Electron Transfer Kinetics in a Photocatalyst Model Assessed by Marcus Theory and Quantum Dynamics
TL;DR: In this paper, the competitive photoinduced electron transfer (ET) kinetics in a supramolecular photocatalyst model were investigated by quantum chemical and quantum dynamical methods, and a Diabatic potential energy surfaces were constructed for selected pairs of donor-accipient pairs.
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N-site de-methylation in pyrimidine bases as studied by low energy electrons and ab initio calculations.
Diogo Almeida,Daniel Kinzel,F. Ferreira da Silva,Benjamin Puschnigg,D. Gschliesser,Paul Scheier,Stephan Denifl,Gustavo García,Gustavo García,Leticia González,Paulo Limão-Vieira +10 more
TL;DR: In this paper, electron transfer and dissociative electron attachment to 3-methyluracil (3meU) and 1-methylthymine (1meT) yielding anion formation were investigated in atom-molecule collision and electron attachment experiments, respectively.
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Separating nuclear spin isomers using a pump–dump laser scheme
TL;DR: In this article, the authors proposed to use ultrashort laser pulses in a pump-dump-like experiment to enhance the ratio between different nuclear spin isomers by pushing the ratio away from its equilibrium value.