Ding, Hairong published the artcileCompeting hydrogen bonding and halogen bonding interactions in crystal engineering: A case study of bi-functional donor molecules, Synthetic Route of 1998-61-4, the publication is Chemical Physics (2014), 30-37, database is CAplus.
Based on the recent determined co-crystals of a set of bi-functional donor mols. with two isomeric sym. acceptors, the competition between hydrogen bonding and halogen bonding interactions in crystal engineering was studied in this work using the M06-2x and ωB97XD methods. The preference of the occurrence of secondary weak interactions was observed in hydrogen-bonded complexes. Hydrogen bonding interactions are predicted to be much stronger than corresponding halogen bonding interactions. No obvious difference was found between the systems of the two acceptors under study. The model complexes, in which hydrogen bonds and halogen bonds coexist, show additivity. Finally, a comparison between theor. results and exptl. observations was presented, and the implications of the calculations on the supermol. assemblies based on the two interactions were also discussed.
Chemical Physics published new progress about 1998-61-4. 1998-61-4 belongs to bromides-buliding-blocks, auxiliary class Fluoride,Bromide,Benzene,Phenol, name is 4-Bromo-2,3,5,6-tetrafluorophenol, and the molecular formula is C6HBrF4O, Synthetic Route of 1998-61-4.
Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary