Energy and Lifetime of Temporary Anion States of Uracil by Stabilization Method

Cheng, Hsiu‐Yao; Chen, Chi‐Wei

doi:10.1021/jp205986z

Cited by 25 publications

(25 citation statements)

References 97 publications

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“…The metastability of the benzene anion, and thus the applicability of standard wave function L 2 methods to this problem, is tested using the stabilization method. [38][39][40][41][42][43][44][45][46][47][48][49][50][51] As is commonly done to implement the stabilization method, the lowest roots of an eigenvalue problem for a specific state are tracked by smoothly varying the exponent of diffuse functions on each atom. Resonance parameters can then be extracted by analytically continuing the obtained energies into the complex plane.…”

Section: Existence Of Benzene Anionmentioning

confidence: 99%

The benzene radical anion: A computationally demanding prototype for aromatic anions

Bazanté

Davidson

Bartlett

2015

The Journal of Chemical Physics

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The benzene radical anion is studied with ab initio coupled-cluster theory in large basis sets. Unlike the usual assumption, we find that, at the level of theory investigated, the minimum energy geometry is non-planar with tetrahedral distortion at two opposite carbon atoms. The anion is well known for its instability to auto-ionization which poses computational challenges to determine its properties. Despite the importance of the benzene radical anion, the considerable attention it has received in the literature so far has failed to address the details of its structure and shape-resonance character at a high level of theory. Here, we examine the dynamic Jahn-Teller effect and its impact on the anion potential energy surface. We find that a minimum energy geometry of C2 symmetry is located below one D2h stationary point on a C2h pseudo-rotation surface. The applicability of standard wave function methods to an unbound anion is assessed with the stabilization method. The isotropic hyperfine splitting constants (Aiso) are computed and compared to data obtained from experimental electron spin resonance experiments. Satisfactory agreement with experiment is obtained with coupled-cluster theory and large basis sets such as cc-pCVQZ.

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Section: Existence Of Benzene Anionmentioning

confidence: 99%

The benzene radical anion: A computationally demanding prototype for aromatic anions

Bazanté

Davidson

Bartlett

2015

The Journal of Chemical Physics

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“…In basis set I, only the orbital exponents of “++” functions will be multiplied by η. Since our previous calculations have shown that this basis set is flexible enough to characterize the TASs of uracil and halopyrimidines, all of our stabilization computations will be based on basis set I. Basis set II denotes the 6–311G(d,p) basis set for H, C, N, and O atoms and the 6–311G(3d,p) basis set for S atom.…”

Section: Methodsmentioning

confidence: 99%

“…In the present study, ωB97XD of LC‐DFT in conjunction with the SKT (SKT ωB97XD) and TD‐ωB97XD of TDDFT in conjunction with SM (S‐TD‐ωB97XD) will be adopted due to their superior calculated AEs in the studies of various molecules . In addition, S‐EA SAC‐CI is also adopted for comparison.…”

Section: Methodsmentioning

confidence: 99%

“…When density functional theory (DFT) is used, the adoption of long range corrected (LC) potentials is required to properly estimate the energies of TASs . By combining the aforementioned SM and LC potentials, we have introduced a stabilized Koopmans theory (SKT) in the framework of LC‐DFT in the study of SRs for various molecules . As for CERs, we have introduced the stabilized long range corrected time‐dependent density functional theory (S‐LC‐TDDFT) in the studies of p‐benzoquinone and halopyrimidines .…”

Section: Introductionmentioning

confidence: 99%

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Shape and core‐excited resonances of thionucleobases

Cheng

Lin

2018

Int J of Quantum Chemistry

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Thionucleobases can be used in chemoradiation therapy of cancer. Shape resonances (SRs) and core-excited resonances (CERs) can lead to fragmentation and eventually result in strand breaks of DNA. In particular, the more energetic CERs are believed to cause double-strand breaks that can hardly be repaired. In this work, both the SRs and CERs of exemplary 2-thiouracil, 4-thiouracil, 2thiothymine, 4-thiothymine, and 6-aza-2-thiothymine are investigated using stabilization method in conjunction with long range corrected time-dependent density functional theory. Results indicate that the energies of (1) p* 1 and p* 2 SRs, (2) n-p* CERs, and (3) mixed resonances of p-p* CERs with p* SRs can be significantly stabilized due to thionation of uracil or thymine. It is noteworthy that the resonant cases of (2) and (3) can be accessed by electrons even at energies below 4 eV.Consequently, the increased decay of temporary anions can enhance strand breaks of DNA.chemoradiation therapy, density functional theory, shape and core-excited resonances, stabilization method, thionucleobases

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“…However, as evident from the charge stabilization plots in Fig. 1, the dianions and trianions being investigated can be stabilized relative to their parent anions and dianions, respectively, suggesting that the dianions of the doublydeprotonated benzene can be metastable in the sense of temporary anions, the confirmation of which though also requires measurement of the lifetime of the metastable states, for example, using the orbital exponent stabilization method [43][44][45]. In the present study, the tunneling lifetime for the electron loss is approximately estimated using a Coulomb model [9], discussed later in the article.…”

Section: Metastability Of the Dianions And Trianions Of Deprotonated mentioning

confidence: 99%

Exploring the metastability and the pathways for polyanionic isomerization in the dianions and trianions of doubly- and triply-deprotonated benzene

Sangwan

Vikas

2015

Theor Chem Acc

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Energy and Lifetime of Temporary Anion States of Uracil by Stabilization Method

Cited by 25 publications

References 97 publications

The benzene radical anion: A computationally demanding prototype for aromatic anions

The benzene radical anion: A computationally demanding prototype for aromatic anions

Shape and core‐excited resonances of thionucleobases

Exploring the metastability and the pathways for polyanionic isomerization in the dianions and trianions of doubly- and triply-deprotonated benzene

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