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Crystal clear. Engineering complexity.

Created on 09 Jul 2026

Authors

Gautam Radhakrishna Desiraju

Published in

IUCrJ. Sep 01, 2026. Epub Sep 01, 2026.

Abstract

The field of structural chemistry has been significantly reshaped by the development of crystal engineering, a subject focused on the strategic design of molecular solids with specific properties. Central to this advancement is the concept of the supramolecular synthon, the core structural module, which can be identified as a synthetic target. Such thinking enables a retrosynthetic approach to crystal design, allowing for the predictable assembly of organic solids using intermolecular interactions as tactical elements that accompany the design strategy. A major shift in our understanding of molecular architecture occurred through the validation of weak hydrogen bonds - specifically C-H...O interactions - as structurally and functionally relevant. Once overlooked, these interactions are now recognized for their essential roles in both small-molecule crystals and complex biological systems. The crystal engineer's palette of interactions has been further expanded to include halogen bonding and other molecular associations involving electrophilic chalcogen, pnictogen and tetrel atoms, leading to standardized international definitions for these bonds. The culmination of these studies treats the molecular crystal not merely as an assembly of parts, but as a complex, holistic system. By framing the crystal as a supramolecular entity, the field has moved toward a predictive science that balances various intermolecular forces to engineer functional materials.

PMID:
42423012
Bibliographic data and abstract were imported from PubMed on 09 Jul 2026.

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