Rahul Nikhar scite author profile

Rahul Nikhar

4Publications

28Citation Statements Received

133Citation Statements Given

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University of Delaware

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Reliable crystal structure predictions from first principles

Nikhar

Szalewicz

2022

Nat Commun

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An inexpensive and reliable method for molecular crystal structure predictions (CSPs) has been developed. The new CSP protocol starts from a two-dimensional graph of crystal’s monomer(s) and utilizes no experimental information. Using results of quantum mechanical calculations for molecular dimers, an accurate two-body, rigid-monomer ab initio-based force field (aiFF) for the crystal is developed. Since CSPs with aiFFs are essentially as expensive as with empirical FFs, tens of thousands of plausible polymorphs generated by the crystal packing procedures can be optimized. Here we show the robustness of this protocol which found the experimental crystal within the 20 most stable predicted polymorphs for each of the 15 investigated molecules. The ranking was further refined by performing periodic density-functional theory (DFT) plus dispersion correction (pDFT+D) calculations for these 20 top-ranked polymorphs, resulting in the experimental crystal ranked as number one for all the systems studied (and the second polymorph, if known, ranked in the top few). Alternatively, the polymorphs generated can be used to improve aiFFs, which also leads to rank one predictions. The proposed CSP protocol should result in aiFFs replacing empirical FFs in CSP research.

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Factors influencing hydrogen peroxide versus water inclusion in molecular crystals

Wiscons

Nikhar

Szalewicz

et al. 2022

Phys. Chem. Chem. Phys.

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Efficient and reliable crystal structure predictions using first-principles force fields from symmetry-adapted perturbation theory

Nikhar¹

2020

Preprint

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Efficient and reliable crystal structure predictions using first-principles force fields from symmetry-adapted perturbation theory

Nikhar¹

2020

Preprint

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Rahul Nikhar

Reliable crystal structure predictions from first principles

Factors influencing hydrogen peroxide versus water inclusion in molecular crystals

Efficient and reliable crystal structure predictions using first-principles force fields from symmetry-adapted perturbation theory

Efficient and reliable crystal structure predictions using first-principles force fields from symmetry-adapted perturbation theory

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