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publications
Nonlocal pseudopotential energy density functional for orbital-free density functional theory
Published in Nature Communications, 2022
Orbital-free density functional theory (OF-DFT) is an electronic structure method that scales linearly with the number of simulated atoms, making it suitable for large-scale material simulations. It is generally considered that OF-DFT strictly requires the use of local pseudopotentials, rather than orbital-dependent nonlocal pseudopotentials, for the calculation of electron-ion interaction energies, as no orbitals are available. This is unfortunate situation since the nonlocal pseudopotentials are known to give much better transferability and calculation accuracy than local ones. We report here the development of a theoretical scheme that allows the direct use of nonlocal pseudopotentials in OF-DFT. In this scheme, a nonlocal pseudopotential energy density functional is derived by the projection of nonlocal pseudopotential onto the non-interacting density matrix (instead of “orbitals”) that can be approximated explicitly as a functional of electron density. Our development defies the belief that nonlocal pseudopotentials are not applicable to OF-DFT, leading to the creation for an alternate theoretical framework of OF-DFT that works superior to the traditional approach.
Recommended citation: Qiang Xu, Cheng Ma, Wenhui Mi, Yanchao Wang, and Yanming Ma, Nat. Commun., 13, 1385 (2022). https://doi.org/10.1038/s41467-022-29002-3
Real-space pseudopotential method for the calculation of 1s core-level binding energies
Published in Journal of Chemical Theory and Computation, 2022
Recommended citation: Qiang Xu, David Prendergast, and Jin Qian, J. Chem. Theory Comput., 18, 9, 5471-5478 (2022). https://doi.org/10.1021/acs.jctc.2c00474
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teaching
Teaching experience 1
Undergraduate course, University 1, Department, 2014
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