Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling

Grinding chiral crystals in a saturated solution (Viedma ripening) and changing temperature of crystal suspension (temperature cycling) have become promising methods to convert chirality of crystals, and thereby chirality of molecules under racemizing condition of molecules. We discuss mechanisms of...
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Gespeichert in:

Autor*in:	Uwaha, Makio [verfasserIn] Katsuno, Hiroyasu

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	A1. Stirring A1. Growth models A1. Computer simulation A2. Growth from solutions A1. Recrystallization A1. Solubility

Übergeordnetes Werk:	Enthalten in: The mental health of doctor-shoppers: Experience from a patient-led fee-for-service primary care setting - 2011, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:598 ; year:2022 ; day:15 ; month:11 ; pages:0

Links:	Volltext

DOI / URN:	10.1016/j.jcrysgro.2022.126873

Katalog-ID:	ELV059162813

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topic_title	610 VZ 570 540 VZ Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling A1. Stirring Elsevier A1. Growth models Elsevier A1. Computer simulation Elsevier A2. Growth from solutions Elsevier A1. Recrystallization Elsevier A1. Solubility Elsevier
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title	Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling
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title_full	Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling
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title_sort	mechanism of chirality conversion of crystals by viedma ripening and temperature cycling
title_auth	Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling
abstract	Grinding chiral crystals in a saturated solution (Viedma ripening) and changing temperature of crystal suspension (temperature cycling) have become promising methods to convert chirality of crystals, and thereby chirality of molecules under racemizing condition of molecules. We discuss mechanisms of these processes by reviewing proposed mathematical models such as mass reaction rate equations, Becker–Döring models, various Monte Carlo models, and population balance models.
abstractGer	Grinding chiral crystals in a saturated solution (Viedma ripening) and changing temperature of crystal suspension (temperature cycling) have become promising methods to convert chirality of crystals, and thereby chirality of molecules under racemizing condition of molecules. We discuss mechanisms of these processes by reviewing proposed mathematical models such as mass reaction rate equations, Becker–Döring models, various Monte Carlo models, and population balance models.
abstract_unstemmed	Grinding chiral crystals in a saturated solution (Viedma ripening) and changing temperature of crystal suspension (temperature cycling) have become promising methods to convert chirality of crystals, and thereby chirality of molecules under racemizing condition of molecules. We discuss mechanisms of these processes by reviewing proposed mathematical models such as mass reaction rate equations, Becker–Döring models, various Monte Carlo models, and population balance models.
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title_short	Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling
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Mechanism of chirality conversion of crystals by Viedma ripening and temperature cycling

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