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以D-(-)-果糖为手性源,经过丙酮保护、氧化、选择性脱保护、三氟酰化四步反应得到手性酮4。以手性酮4为催化剂,立体选择性环氧化α,β-丙烯酸酯,较高产率和立体选择性地获得了重要的手性中间体α,β-环氧丙酸酯。产率和e.e.值分别达到76%~92%和92%~98%。 相似文献
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选用10种面包酵母,研究其对2,5-己二酮的不对称还原特性。筛选出一种酵母S.c No.6,对底物2,5-己二酮有较高的转化活性和对映体选择性。初始底物浓度20 mmol.L-1,经酵母转化48h,2,5-己二醇得率为84.0%,e.e.值94.8%。采用气相色谱-质谱联用技术确认酵母培养液中存在中间产物5-羟基-2-己酮,并推测酵母不对称还原2,5-己二酮的反应分两步进行,首先生成中间产物(S)-5-羟基-2-己酮,而后二次加氢生成(2S,5S)-2,5-己二醇。 相似文献
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在(R)TTCA·K催化下由环己酮直接与丙烯酸甲酯进行Michael加成反应得到了(S)-3-(2′-氧环己基)-丙酸甲酯, [α]20D-4.14(41.5% e.e.). 相似文献
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以(1S,5S)-(-)-α-蒎烯为原料合成了系列新型(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物. (-)-α-蒎烯经硼氢化氧化、重铬酸吡啶盐(PDC)氧化得到(1S,2S,5R)-(-)-3-蒎酮; 在BF38226;(C2H5)2O催化下(1S,2S,5R)-(-)-3-蒎酮与伯胺化合物反应生成Schiff碱, 再经KBH4或NaBH4还原得到(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物. 采用FT-IR, 1H NMR, 13C NMR和GC-MS等分析手段对合成所得(1S,2S,5R)-N-烷基-3-蒎烷亚胺和(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物的结构进行了表征. 考察了(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物对大肠杆菌(E. coli)、金黄色葡萄球菌(S. aureus)、枯草芽胞杆菌(B. subtilis)、荧光假单胞菌(P. fluorescens)、白色念珠菌(C. albicans)、黑曲霉(A. niger)和米根霉(R. oryzae)等细菌和真菌的抑菌和杀菌活性. 结果表明(1S,2S,3S,5R)-N-正庚基-3-蒎胺对真菌和细菌均表现出良好的杀菌和抑菌活性. 相似文献
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在KOH/丙酮体系中, 以5-甲基-4-N-取代苯基亚胺/胺基-1,2,4-三唑-3-硫酮为原料, 与溴-α-D-四乙酰葡萄糖进行Kenigs-Knorr反应合成了10个新颖的化合物—5-甲基-4-N-取代苯基亚胺基/胺基-3-S-(2',3',4',6'-四-O-乙酰基-β-D-吡喃葡萄糖基)-1,2,4-三唑(2a~2e, 5a~5e); 并在二氯甲烷/甲醇/甲醇钠混合体系中水解脱除乙酰基, 得到10个新颖的化合物—5-甲基-4-N-取代苯基亚胺基-3-S-(β-D-吡喃葡萄糖基)-1,2,4-三唑(3a~3e)及5-甲基-4-N-取代苯基胺基-3-S-(β-D-吡喃葡萄糖基)-1,2,4-三唑(6a~6e). 化合物的结构均经核磁共振波谱(NMR)、 红外光谱(IR)和高分辨质谱(HRMS)分析确证. 生物活性测试结果表明, 目标化合物对大肠杆菌、 金黄色葡萄球菌、 枯草芽孢杆菌和白色念珠球菌普遍具有较好的抗菌活性. 化合物3d和3e对4种菌株的最小抑菌浓度相对较低, 表现出较强的广谱抗菌活性. 相似文献
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缺电子烯烃的不对称环氧化反应是有机合成领域最具有挑战性的课题之一。手性联萘酚配体所修饰的催化剂是一种很优异的C2轴对称手性诱导源,可以催化各种α,β-不饱和羰基化合物如α,β-不饱和酮、α,β-不饱和羧酸脂等的不对称环氧化反应,具有良好的催化活性和对映选择性。本文对由手性联萘酚类配体所修饰的小分子催化剂、聚合物负载的催化剂和自负载催化剂在不饱和羰基化合物的催化不对称环氧化反应中的应用进行了综述,探讨了催化剂结构、配位金属原子、添加物、氧化剂、溶剂和反应温度等因素对手性联萘酚催化剂催化效能和对映选择性的影响。 相似文献
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Mitsuka Ando Ryoma Ishidate Tomoyuki Ikai Katsuhiro Maeda Eiji Yashima 《Journal of polymer science. Part A, Polymer chemistry》2019,57(24):2481-2490
Novel poly(biphenylylacetylene) derivatives carrying different types of pyridine N‐oxide units with a bulky or less‐bulky substituent at a different position as the functional pendant groups (poly‐ 2a and poly‐ 2b ) were synthesized by the rhodium‐catalyzed polymerization of the corresponding monomers. The influence of the steric environment around the catalytically active pyridine N‐oxide sites on the helicity induction and its static memory as well as the asymmetric catalytic activities of the resulting helical polymers with a macromolecular helicity memory was investigated. The polyacetylenes formed an excess one‐handed helical conformation upon noncovalent interactions with optically active alcohols and the induced macromolecular helicities of the polyacetylenes were efficiently memorized after the removal of the chiral inducers. Poly‐ 2b with the macromolecular helicity memory showed an enantioselectivity for the catalytic asymmetric allylation of benzaldehydes, producing optically active allyl alcohols, although their enantioselectivities were low. On the other hand, poly‐ 2a exhibited a negligible catalytic activity probably due to the bulky substituent at the o‐position of the pyridine N‐oxide residues, while poly‐ 2a underwent a unique helix‐inversion with the increasing concentration of chiral alcohols and the opposite helicity of poly‐ 2a was further successfully memorized. © 2019 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2019 , 57, 2481–2490 相似文献
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The synthesis of optically pure (+)-ambrisentan has been achieved from 3,3-diphenylacrylate in four steps with 53% overall yield and >99% ee at the >100 g scale without column purification. The chiral epoxide intermediate was prepared via asymmetric epoxidation with a fructose-derived diacetate ketone as catalyst. 相似文献
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《Tetrahedron: Asymmetry》2001,12(1):121-125
The asymmetric Weitz–Scheffer epoxidation of α,β-enones 1a–d with hydroperoxides 2 and mediated by cinchonine- and cinchonidine-derived phase-transfer catalysts (PTCs) 3 affords the optically active epoxides 4 with moderate to very good e.e.s and in near quantitative yields. For the conformationally flexible enone 1b, the enantioselectivity decreases with more sterically demanding tertiary hydroperoxides, while an opposite trend is observed for the rigid s-cis-enone 1. With the bulky cumyl hydroperoxide 2c and the PTC 3c, the enone 1 was converted to the epoxide 4c with the highest enantioselectivity (95% e.e.) so far observed for PTC-catalyzed epoxidations using hydroperoxides as oxygen sources. 相似文献
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Sadhukhan A Khan NU Roy T Kureshy RI Abdi SH Bajaj HC 《Chemistry (Weinheim an der Bergstrasse, Germany)》2012,18(17):5256-5260
A chiral cobalt(III) complex (1e) was synthesized by the interaction of cobalt(II) acetate and ferrocenium hexafluorophosphate with a chiral dinuclear macrocyclic salen ligand that was derived from 1R,2R-(-)-1,2-diaminocyclohexane with trigol bis-aldehyde. A variety of epoxides and glycidyl ethers were suitable substrates for the reaction with water in the presence of chiral macrocyclic salen complex 1e at room temperature to afford chiral epoxides and diols by hydrolytic kinetic resolution (HKR). Excellent yields (47% with respect to the epoxides, 53% with respect to the diols) and high enantioselectivity (ee>99% for the epoxides, up to 96% for the diols) were achieved in 2.5-16 h. The Co(III) macrocyclic salen complex (1e) maintained its performance on a multigram scale and was expediently recycled a number of times. We further extended our study of chiral epoxides that were synthesized by using HKR to the synthesis of chiral drug molecules (R)-mexiletine and (S)-propranolol. 相似文献
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Lorenz JC Frohn M Zhou X Zhang JR Tang Y Burke C Shi Y 《The Journal of organic chemistry》2005,70(8):2904-2911
This paper describes an efficient kinetic resolution process of trisubstituted cyclic olefins via a chiral dioxirane generated in situ from a fructose-derived ketone and Oxone. The substrates presented include a variety of 1,3-disubstituted and 1,6-disubstituted cyclohexenes with the stereogenic centers at allylic positions. A sequential desymmetrization and kinetic resolution of 1,4-cyclohexadienes by the chiral dioxirane was also found to be feasible. The initially formed monoepoxides can be kinetically resolved by continuing the reaction, leading to the increase or decrease of the ee values of monoepoxides depending on the diene systems. In some cases, a prochiral directing group is not required and the first formed epoxide stereoselectively directs the second epoxidation. When the coupled desymmetrization and kinetic resolution is used synergistically, high enantiopurity can be obtained for an epoxide from an intrinsically less enantioselective substrate. The observed absolute and relative stereochemistry as well as the changing optical purity can be effectively rationalized by transition state analysis. 相似文献