Chiral Flipping in Viedma Deracemization

Hyun Soo Choi; In Hwan Oh; Bowen Zhang; Gerard Coquerel; Woo Sik Kim; Bum Jun Park

doi:10.1021/acs.jpclett.4c00558

Chiral Flipping in Viedma Deracemization

Hyun Soo Choi, In Hwan Oh, Bowen Zhang, Gerard Coquerel, Woo Sik Kim, Bum Jun Park

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Understanding deracemization is crucial for progress in chiral chemistry, especially for improving separation techniques. Here, we first report the phenomenon of chiral flipping (or reverse deracemization) in a chiral material (i.e., sodium chlorate crystals) during Viedma deracemization, employing a small-volume reactor system for precise analysis. We observe considerable chiral flipping, influenced by the initial imbalance in the numbers of L- and D-form particles. We developed a simple probabilistic model to further elucidate this behavior. We find that the fluctuation in the populations of chiral crystal particles resulting from their random dissolution and regeneration is the key factor behind chiral flipping. This study not only brings to light this intriguing observation of chiral flipping but also contributes to the enhancement of deracemization techniques.

Original language	English
Pages (from-to)	4367-4374
Number of pages	8
Journal	Journal of Physical Chemistry Letters
Volume	15
Issue number	16
DOIs	https://doi.org/10.1021/acs.jpclett.4c00558
Publication status	Published - 25 Apr 2024

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© 2024 American Chemical Society.

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abstract = "Understanding deracemization is crucial for progress in chiral chemistry, especially for improving separation techniques. Here, we first report the phenomenon of chiral flipping (or reverse deracemization) in a chiral material (i.e., sodium chlorate crystals) during Viedma deracemization, employing a small-volume reactor system for precise analysis. We observe considerable chiral flipping, influenced by the initial imbalance in the numbers of L- and D-form particles. We developed a simple probabilistic model to further elucidate this behavior. We find that the fluctuation in the populations of chiral crystal particles resulting from their random dissolution and regeneration is the key factor behind chiral flipping. This study not only brings to light this intriguing observation of chiral flipping but also contributes to the enhancement of deracemization techniques.",

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AU - Choi, Hyun Soo

AU - Oh, In Hwan

AU - Zhang, Bowen

AU - Coquerel, Gerard

AU - Kim, Woo Sik

AU - Park, Bum Jun

PY - 2024/4/25

Y1 - 2024/4/25

N2 - Understanding deracemization is crucial for progress in chiral chemistry, especially for improving separation techniques. Here, we first report the phenomenon of chiral flipping (or reverse deracemization) in a chiral material (i.e., sodium chlorate crystals) during Viedma deracemization, employing a small-volume reactor system for precise analysis. We observe considerable chiral flipping, influenced by the initial imbalance in the numbers of L- and D-form particles. We developed a simple probabilistic model to further elucidate this behavior. We find that the fluctuation in the populations of chiral crystal particles resulting from their random dissolution and regeneration is the key factor behind chiral flipping. This study not only brings to light this intriguing observation of chiral flipping but also contributes to the enhancement of deracemization techniques.

AB - Understanding deracemization is crucial for progress in chiral chemistry, especially for improving separation techniques. Here, we first report the phenomenon of chiral flipping (or reverse deracemization) in a chiral material (i.e., sodium chlorate crystals) during Viedma deracemization, employing a small-volume reactor system for precise analysis. We observe considerable chiral flipping, influenced by the initial imbalance in the numbers of L- and D-form particles. We developed a simple probabilistic model to further elucidate this behavior. We find that the fluctuation in the populations of chiral crystal particles resulting from their random dissolution and regeneration is the key factor behind chiral flipping. This study not only brings to light this intriguing observation of chiral flipping but also contributes to the enhancement of deracemization techniques.

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Chiral Flipping in Viedma Deracemization

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