Xing Zhang

California Institute of Technology

30 Papers

52 Citations

Xing Zhang is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Density functional theory & Medicine. The author has an hindex of 11, co-authored 14 publications. Previous affiliations of Xing Zhang include Princeton University & Ohio State University.

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Papers

•Journal Article•10.1080/00268976.2014.952696

Advances in molecular quantum chemistry contained in the Q-Chem 4 program package

Yihan Shao, +156 more

- 17 Jan 2015

- Molecular Physics

TL;DR: A summary of the technical advances that are incorporated in the fourth major release of the Q-Chem quantum chemistry program is provided in this paper, covering approximately the last seven years, including developments in density functional theory and algorithms, nuclear magnetic resonance (NMR) property evaluation, coupled cluster and perturbation theories, methods for electronically excited and open-shell species, tools for treating extended environments, algorithms for walking on potential surfaces, analysis tools, energy and electron transfer modelling, parallel computing capabilities, and graphical user interfaces.

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2.8K

•Journal Article•10.1063/5.0055522

Software for the frontiers of quantum chemistry: An overview of developments in the Q-Chem 5 package

Evgeny Epifanovsky, +238 more

- 28 Aug 2021

- Journal of Chemical Physics

TL;DR: The Q-Chem quantum chemistry program package as discussed by the authors provides a suite of tools for modeling core-level spectroscopy, methods for describing metastable resonances, and methods for computing vibronic spectra, the nuclear-electronic orbital method, and several different energy decomposition analysis techniques.

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892

•Journal Article•10.1063/5.0006074

Recent developments in the PySCF program package

Qiming Sun, +48 more

- 14 Jul 2020

- Journal of Chemical Physics

TL;DR: PySCF as mentioned in this paper is a Python-based general-purpose electronic structure platform that supports first-principles simulations of molecules and solids as well as accelerates the development of new methodology and complex computational workflows.

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Journal Article•10.1021/ACS.ACCOUNTS.6B00047

Beyond Time-Dependent Density Functional Theory Using Only Single Excitations: Methods for Computational Studies of Excited States in Complex Systems.

John M. Herbert, +3 more

- 21 Apr 2016

- Accounts of Chemical Research

TL;DR: An ab initio version of the Frenkel-Davydov exciton model in which proper spin eigenstates are obtained by construction is developed, which enables calculations on organic semiconductors, where even small model systems exhibit a semicontinuum of excited states that renders traditional TDDFT computationally challenging.

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Journal Article•10.1021/JP412092F

Excited-state deactivation pathways in uracil versus hydrated uracil: solvatochromatic shift in the (1)nπ* state is the key.

Xing Zhang, +1 more

- 24 Jan 2014

- Journal of Physical Chemistry B

TL;DR: The results illustrate how hydrogen bonding to the chromophore can significantly impact excited-state dynamics and also highlight that relaxation pathways can be elucidated using low-cost methods based on density functional theory.

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