Institute of Organic Chemistry, Polish Academy of Sciences, ul. Kasprzaka 44/52, 01-224, Warsaw, Poland.
Dipartimento di Chimica e Chimica Industriale, Università di Pisa, via Moruzzi 13, 56124, Pisa, Italy.
Chemistry. 2022 Jan 19;28(4):e202103632. doi: 10.1002/chem.202103632. Epub 2021 Dec 21.
Solid-state ECD (ss-ECD) spectra of a model microcrystalline solid, finasteride, dispersed into a KCl pellet were recorded by using the synchrotron radiation source at the Diamond B23 beamline. Scanning a surface of 36 mm with a step of 0.5 mm, we measured a set of ECD imaging (ECDi) spectra very different from each other and from the ss-ECD recorded with a bench-top instrument (1 cm area). This is due to the anisotropic part of the ECD (ACD), which averages to zero in solution or on a large number of randomly oriented crystallites, but can otherwise be extremely large. Two-way singular value decomposition (SVD) analysis, through experimental and simulated TDDFT spectra, disclosed that the measured and theoretical principal components are in line with each other. This finding demonstrates that the observed isotropic ss-ECD spectrum is governed by the anisotropy of locally oriented crystals. It also introduces a new quality for ss-ECD measurements and opens a new future for probing and mapping chiral materials in the solid state such as active pharmaceutical ingredients (APIs).
采用同步辐射光源在 Diamond B23 光束线上记录了模型微晶体固体非那雄胺分散在 KCl 压片中的固态 ECD(ss-ECD)光谱。通过以 0.5mm 的步长扫描 36mm 的表面,我们测量了一组彼此之间以及与台式仪器记录的 ss-ECD 非常不同的 ECD 成像(ECDi)光谱(1cm 面积)。这是由于 ECD(ACD)的各向异性部分在溶液中或在大量随机取向的晶体上平均为零,但在其他情况下可能非常大。通过实验和模拟 TDDFT 光谱的双向奇异值分解(SVD)分析表明,测量和理论主成分彼此一致。这一发现表明,观察到的各向同性 ss-ECD 光谱受局部取向晶体各向异性的控制。它还为 ss-ECD 测量引入了一个新的质量,并为探测和绘制固态中手性材料(如活性药物成分 (API))开辟了新的未来。
