70-47-3Relevant articles and documents
Noncovalently Functionalized Commodity Polymers as Tailor-Made Additives for Stereoselective Crystallization
Wan, Xinhua,Wang, Zhaoxu,Ye, Xichong,Zhang, Jie
supporting information, p. 20243 - 20248 (2021/08/09)
Stereoselective inhibition of the nucleation and crystal growth of one enantiomer aided by “tailor-made” polymeric additives is an efficient method to obtain enantiopure compounds. However, the conventional preparation of polymeric additives from chiral monomers are laborious and limited in structures, which impedes their rapid optimization and applicability. Herein, we report a “plug-and-play” strategy to facilitate synthesis by using commercially available achiral polymers as the platform to attach various chiral small molecules as the recognition side-chains through non-covalent interactions. A library of supramolecular polymers made up of two vinyl polymers and six small molecules were applied with seeds in the selective crystallization of seven racemates in different solvents. They showed good to excellent stereoselectivity in yielding crystals with high enantiomeric purities in conglomerates and racemic compound forming systems. This convenient, low-cost modular synthesis strategy of polymeric additives will allow for high-efficient, economical resolution of various racemates on different scales.
A method of synthesizing L - asparagine (by machine translation)
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Page/Page column 4-6, (2019/05/08)
The invention provides a method of synthesizing L - asparagine, the main technical means is to L - aspartic acid as the raw material, first to the reaction in the cauldron the pump enters methanol, then open the reaction kettle, input L - aspartic acid, cooling, subsequently drop adds the chlorination sulfoxide, generating L - aspartic acid methyl ester hydrochloride, then will be of the L - aspartic acid methyl ester hydrochloride into a reaction kettle, then to the reaction in the cauldron the pump enters the ammonia, to obtain the L - asparagine, the method generating L - aspartic acid methyl ester hydrochloride intermediate product, the intermediate product is stable structure, safe and non-toxic, for subsequent operation processing, reaction process only needs to have the participation of ammonia water, reactant complex, the small influence of the product, the method of the invention recovery of the methanol up to 99.5 - 99.9%, not only improving the intermediate the purity of the product, and also avoids the pollution of methanol, L - asparagine is finished effective content of 80 - 85%, moisture content is 15 - 18%, yield and moisture content are higher than the amount of the existing products, the method of the invention is suitable for industrial production. (by machine translation)
β-Cyclodextrin Functionalized Nanoporous Graphene Oxides for Efficient Resolution of Asparagine Enantiomers
Qie, Fengxiang,Guo, Jiahui,Tu, Bin,Zhao, Xing,Zhang, Yuchun,Yan, Yong
supporting information, p. 2812 - 2817 (2018/09/12)
Efficient resolution of racemic mixture has long been an attractive but challenging subject since Pasteur separated tartrate enantiomers in 19th century. Graphene oxide (GO) could be flexibly functionalized by using a variety of chiral host molecules and therefore, was expected to show excellent enantioselective resolution performance. However, this combination with efficient enantioselective resolution capability has been scarcely demonstrated. Here, nanoporous graphene oxides were produced and then covalently functionalized by using a chiral host material-β-cyclodextrin (β-CD). This chiral GO displayed enantioselective affinity toward the l-enantiomers of amino acids. In particular, >99 % of l-asparagine (Asn) was captured in a racemic solution of Asn while the adsorption of d-enantiomer was not observed. This remarkable resolution performance was subsequently modelled by using an attach-pull-release dynamic method. We expect this preliminary concept could be expanded to other chiral host molecules and be employed to current membrane separation technologies and finally show practical use for many other racemates.