Fátima C Martínez-Torres scite author profile

Fátima C Martínez-Torres

2Publications

18Citation Statements Received

85Citation Statements Given

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Affiliations

Universidad Autónoma de la Ciudad de México, Universidad Nacional Autónoma de México

Publications

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Synthesis and Solid-State Dynamics of a Crystalline Steroid Molecular Rotor without the Alkyne Axle: Steroid Dimers Based on a 1,4-Di(1,3-dioxan-2-yl)benzene Moiety

et al. 2020

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Two diastereomeric crystalline steroid dimers were obtained by acid-catalyzed double acetalization of (20S)-5αpregnan-3β,16β,20-triol 3-monoacetate with terephtalaldehyde. These compounds were characterized by NMR in solution, MS, single-crystal X-ray diffraction, and variable-temperature solid-state NMR by 13 C cross-polarization magic angle spinning (CPMAS). While the phenylene rotator in the SR diastereomer remains static even at 373 K, the RR isomer shows a slow rotational process of the phenylene ring at temperatures above room temperature and thus may be considered the first crystalline steroid molecular rotor without the alkyne axle. Article pubs.acs.org/joc

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A Crystalline Dimeric Steroidal Diboronate with Electronically Impeded Rotation

et al. 2022

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The dimeric steroid SMR-3, featuring a 1,4-phenyldiboronic ester flanked by two pregnan-triol frameworks, was synthesized to explore the intramolecular dynamics of its central component. The structural data from single-crystal X-ray diffraction studies and the Hirshfeld analyses indicate small steric effects around the aromatic ring that should favor the intended motion. However, solid-state NMR data obtained through VT 13C{1 H} CPMAS and 2H spin-echo experiments, using the deuterated analogue SMR-3D4 , revealed that this component is rigid even at temperatures where other reported steroidal molecular rotors experience fast rotation (85 °C). A combination of classical molecular dynamics, molecular mechanics, and correlated ab initio calculations allowed us to distinguish the steric and electronic factors that restrict the potential motion in this compound. The experimental and computational data reveal that electronic components dominate the behavior and are responsible for the high rotational barrier in the SMR-3 crystal.

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