TY - JOUR
T1 - Current trends and advancements in crystallization and single-crystal structural analysis of small molecules
AU - Xiao, Yuntian
AU - Wu, Chuanhua
AU - Zhou, Ling
AU - Commins, Patrick
AU - Li, Liang
AU - Naumov, Panče
AU - Yin, Qiuxiang
N1 - Publisher Copyright:
© 2024 Elsevier B.V.
PY - 2024/10/15
Y1 - 2024/10/15
N2 - The advancement of single-crystal structural analysis has emerged as a pivotal technology surpassing spectroscopic methods in revealing the intricate structural details of organic small molecules, including crystal packing and stereochemical configurations. It plays a critical role across scientific domains such as chemistry, biology, agronomy, and medicine. Traditional single-crystal X-ray diffraction (SCXRD) has always been restricted by its stringent requirements on the physical state, size, and quality of crystals. This review discusses the arsenal of equipment and theoretical techniques for obtaining single-crystal structures, including SCXRD, PXRD & CSP, and more recently, Micro-ED. It further explores the significant crystal growth techniques based on three foundational methods: solution-based crystallization, melt crystallization, and sublimation crystallization. Detailed discussion is provided on the crystallizability of molecules and the refinement of crystal growth methods. Specifically, for crystallizable analytes, a combination of crystal growth enhancement techniques and high-throughput technologies (under-oil) can compensate for poor crystallinity, small size, and defects under normal conditions. For molecules inherently resistant to crystallization, a “crystallization chaperone”, such as a MOFs as a crystalline sponge or tetraaryladamantane as a cocrystallization chaperone, can determine absolute configurations. Looking ahead, this review emphasizes the potential of artificial intelligence and machine learning approaches for crystal growth and structural prediction. The development of integrated analysis strategies combining SCXRD, PXRD, and Micro-ED is identified as a future trend for providing comprehensive structural insights. This review highlights the significance of advancements in single-crystal structural analysis techniques, paving the way for groundbreaking innovations in molecular design and materials science, and predicts a bright future for the field with new technologies.
AB - The advancement of single-crystal structural analysis has emerged as a pivotal technology surpassing spectroscopic methods in revealing the intricate structural details of organic small molecules, including crystal packing and stereochemical configurations. It plays a critical role across scientific domains such as chemistry, biology, agronomy, and medicine. Traditional single-crystal X-ray diffraction (SCXRD) has always been restricted by its stringent requirements on the physical state, size, and quality of crystals. This review discusses the arsenal of equipment and theoretical techniques for obtaining single-crystal structures, including SCXRD, PXRD & CSP, and more recently, Micro-ED. It further explores the significant crystal growth techniques based on three foundational methods: solution-based crystallization, melt crystallization, and sublimation crystallization. Detailed discussion is provided on the crystallizability of molecules and the refinement of crystal growth methods. Specifically, for crystallizable analytes, a combination of crystal growth enhancement techniques and high-throughput technologies (under-oil) can compensate for poor crystallinity, small size, and defects under normal conditions. For molecules inherently resistant to crystallization, a “crystallization chaperone”, such as a MOFs as a crystalline sponge or tetraaryladamantane as a cocrystallization chaperone, can determine absolute configurations. Looking ahead, this review emphasizes the potential of artificial intelligence and machine learning approaches for crystal growth and structural prediction. The development of integrated analysis strategies combining SCXRD, PXRD, and Micro-ED is identified as a future trend for providing comprehensive structural insights. This review highlights the significance of advancements in single-crystal structural analysis techniques, paving the way for groundbreaking innovations in molecular design and materials science, and predicts a bright future for the field with new technologies.
KW - Chaperones-based cocrystallization
KW - Crystal growth enhancement
KW - Crystal structure
KW - Crystalline sponge
KW - Instrumentation
KW - Small molecules
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U2 - 10.1016/j.ccr.2024.216035
DO - 10.1016/j.ccr.2024.216035
M3 - Review article
AN - SCOPUS:85196633788
SN - 0010-8545
VL - 517
JO - Coordination Chemistry Reviews
JF - Coordination Chemistry Reviews
M1 - 216035
ER -