Abstract

We present a graph-theory-based reformulation of all ONIOM-based molecular fragmentation methods. We discuss applications to (a) accurate post-Hartree-Fock AIMD that can be conducted at DFT cost for medium-sized systems, (b) hybrid DFT condensed-phase studies at the cost of pure density functionals, (c) reduced cost on-the-fly large basis gas-phase AIMD and condensed-phase studies, (d) post-Hartree-Fock-level potential surfaces at DFT cost to obtain quantum nuclear effects, and (e) novel transfer machine learning protocols derived from these measures. Additionally, in previous work, the unifying strategy discussed here has been used to construct new quantum computing algorithms. Thus, we conclude that this reformulation is robust and accurate.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Quantum Mechanical Design of Molecular Computers Elements Suitable for Self-Assembling to Quantum Computing Living Systems
Arvydas Tamulis ... Vykintas Tamulis
Solid State Phenomena | VOL. 97-98
Arvydas Tamulis, et. al.Arvydas Tamulis ... Vykintas Tamulis
01 Apr 2004
Graph-Theory-Based Molecular Fragmentation for Efficient and Accurate Potential Surface Calculations in Multiple Dimensions.
Anup Kumar ... Srinivasan S Iyengar
Journal of Chemical Theory and Computation | VOL. 17
Anup Kumar, et. al.Anup Kumar ... Srinivasan S Iyengar
08 Oct 2021
Graph-Theoretic Molecular Fragmentation for Potential Surfaces Leads Naturally to a Tensor Network Form and Allows Accurate and Efficient Quantum Nuclear Dynamics.
Anup Kumar ... Nicole Degregorio
Journal of Chemical Theory and Computation | VOL. 18
Anup Kumar, et. al.Anup Kumar ... Nicole Degregorio
04 Nov 2022
Adiabatic semi-empirical parametric method for computing electronic-vibrational spectra of complex molecules part 1. Polyenes and diphenylpolyenes
V.I Baranov ... D.Yu Zelent'Sov
Journal of Molecular Structure | VOL. 407
V.I Baranov, et. al.V.I Baranov ... D.Yu Zelent'Sov
01 May 1997
View more papers

More From: The journal of physical chemistry. A

Paper Title
Journal
Date
Author
B-Doped Graphdiynes and Several of Their Corresponding Oxides: A Theoretical Study by X-ray Spectra.
Jiayuan Qi ... Tao Gao
The journal of physical chemistry. A | VOL. -
Jiayuan Qi, et. al.Jiayuan Qi ... Tao Gao
09 Oct 2024
High-Resolution Spectroscopy and Structure of Heavy Carbon Subchalcogenides: Tricarbon Selenide, C3Se.
Thomas Salomon ... Sven Thorwirth
The journal of physical chemistry. A | VOL. -
Thomas Salomon, et. al.Thomas Salomon ... Sven Thorwirth
09 Oct 2024
Atmospheric Chemistry of Chloroprene Initiated by OH Radicals: Combined Ab Initio/DFT Calculations and Kinetics Analysis.
Parandaman Arathala ... Rabi A Musah
The journal of physical chemistry. A | VOL. -
Parandaman Arathala, et. al.Parandaman Arathala ... Rabi A Musah
08 Oct 2024
Interpretable and Physicochemical-Intuitive Deep Learning Approach for the Design of Thermal Resistance of Energetic Compounds.
Haitao Liu ... Xin Huang
The journal of physical chemistry. A | VOL. -
Haitao Liu, et. al.Haitao Liu ... Xin Huang
08 Oct 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.