Sandhu, Bhupinder published the artcileAssessment of computational tools for predicting supramolecular synthons, Quality Control of 3553-12-6, the publication is Chemistry (Basel, Switzerland) (2021), 3(2), 612-629, database is CAplus.
The ability to predict the most likely supramol. synthons in a crystalline solid is a valuable starting point for subsequently predicting the full crystal structure of a mol. with multiple competing mol. recognition sites. Energy and informatics-based prediction models based on mol. electrostatic potentials (MEPs), hydrogen-bond energies (HBE), hydrogen-bond propensity (HBP), and hydrogen-bond coordination (HBC) were applied to the crystal structures of twelve pyrazole-based mols. HBE, the most successful method, correctly predicted 100% of the exptl. observed primary intermol.-interactions, followed by HBP (87.5%), and HBC = MEPs (62.5%). A further HBC anal. suggested a risk of synthon crossover and synthon polymorphism in mols. with multiple binding sites. These easy-to-use models (based on just 2-D chem. structure) can offer a valuable risk assessment of potential formulation challenges.
Chemistry (Basel, Switzerland) published new progress about 3553-12-6. 3553-12-6 belongs to pyrazoles-derivatives, auxiliary class Pyrazole,Amine,Amide, name is 3-Acetamidopyrazole, and the molecular formula is C5H7N3O, Quality Control of 3553-12-6.
Referemce:
https://en.wikipedia.org/wiki/Pyrazole,
Pyrazoles – an overview | ScienceDirect Topics