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W4253803119 abstract "Many chemical phenomena are ultimately due to energy balances between atoms. In order to reach firm and clear conclusions one needs a reliable energy decomposition analysis (EDA). The Interacting Quantum Atoms (IQA) energy partitioning method is one of the most recent EDA methods. IQA is a topological energy partitioning that generates well-defined intra- and interatomic contributions, of steric, electrostatic or covalent (exchange) character. IQA has a minimal and powerful architecture and does not suffer from a number of conceptual and practical problems that plague the more traditional non-topological EDAs (<i>Chem. Soc. Rev.</i>, <b>44</b> (2015) 3177).<div><br></div><div>For the first time, our manuscript reports on a protocol for using the IQA to understand polymorphism, which we apply to the three polymorphs of succinic acid (SA), including the unusual polymorph that was recently discovered serendipitously (<i>CrystEngComm</i>, <b>20</b> (2018) 3971). The many intra- and interatomic energy terms from the EDA scheme are processed using a new technique that we developed called the Relative Energy Gradient (REG) method, which clearly identifies the atoms and corresponding energetic terms that govern the behaviour of the total system, in a minimal and unbiased way. <br></div>" @default.
W4253803119 created "2022-05-12" @default.
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W4253803119 date "2021-04-13" @default.
W4253803119 modified "2023-09-24" @default.
W4253803119 title "Towards an Atomistic Understanding of Polymorphism in Molecular Solids" @default.
W4253803119 doi "https://doi.org/10.26434/chemrxiv.14369726" @default.
W4253803119 hasPublicationYear "2021" @default.
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