共查询到16条相似文献,搜索用时 93 毫秒
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微波辅助组合合成的研究进展 总被引:2,自引:0,他引:2
微波辅助组合合成技术是近年来发展起来的一种新的制备化合物库的组合化学技术, 它不仅可以克服传统固相组合合成技术以及液相组合合成技术无法提高产物收率的不足, 而且利用该技术所制得的化合物库中对应的是高纯度的单一化合物, 采用高通量筛选技术可以快速直接地确定高活性结构, 极大地提高了新药开发的效率. 主要就近年来微波辅助组合合成技术的研究进展情况进行介绍, 内容包括固相组合合成、基于聚合物支载的催化剂的组合合成、液相组合合成、氟相组合合成以及组合平行合成等. 相似文献
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固载化试剂、催化剂及清洁树脂在液相合成中的应用, 极大地方便了液相合成的后处理, 提高了工作效率, 为液相平行组合合成提供了基础. 重点综述了近年来固载化试剂和催化剂在液相组合合成及多步液相合成中应用进展情况. 相似文献
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综述了近8年来液相平行合成和组合合成中应用的不同技术, 包括可溶性载体、氟合成技术、离子液体、固相试剂树脂以及低聚乙烯二醇(OEG)衍生物的应用等几方面内容. 论述了它们的基本原理以及相关的应用实例, 并着重强调了目标化合物的分离纯化方法. 相似文献
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随着组合化学的迅速发展, 兼容固相合成和溶液相合成优点的液相合成方法已成为实现组合化学的一条重要途径. 综述了近年来聚乙二醇为可溶性聚合物载体支载的杂环化合物库的研究, 并展望了其今后的发展方向. 相似文献
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固相有机合成研究进展 总被引:4,自引:0,他引:4
组合化学技术给固相有机合成带来了新的发展契机,同时也提出了新的发展要求。目前这一研究领域发展迅速,应用范围不断扩大,技术日臻完善。本文综述了近期固相有机合成研究方面的最新进展。 相似文献
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Prof. Dr. Hiroshi Tanaka Maasa Yamanouchi Haruko Miyoshi Keisuke Hirotsu Prof. Dr. Hirofumi Tachibana Prof. Dr. Takashi Takahashi 《化学:亚洲杂志》2010,5(10):2231-2248
We report on the solid‐phase synthesis of a combinatorial methylated (±)‐epigallocatechin gallate (EGCG) library and its biological evaluation. Epigallocatechin gallate (EGCG) and its methylated derivatives, which are members of the catechin family, exhibit various anti‐cancer effects. The solid‐phase synthesis of methylated EGCG involves the preparation of the α‐acyloxyketone by the coupling of a solid‐supported aldehyde with a ketone and an acid. The subsequent release and reductive etherification reaction of the solid‐supported α‐acyloxyketone provide the protected EGCG in good total yields. Sixty‐four methylated EGCGs were successfully prepared. The growth‐inhibitory effects of the methylated EGCG library were also examined. Although methylation of EGCG generally causes reduced growth inhibition, the growth‐inhibitory effect of 7‐OMe EGCGs was comparable to that of EGCG. The 7‐OMe EGCGs are attractive drug candidates because of their enhanced bioavailability. 相似文献
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固相有机合成和组合化学是近年来发展起来的快速合成数种有机化合物的新方法。本文介绍了在固相载体上进行的环加成反应, 及其在有机合成及反应机理研究中的应用。 相似文献
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K. G. Sreejalekshmi 《Phosphorus, sulfur, and silicon and the related elements》2013,188(9):1830-1837
A sequential, three-component approach for the rapid and convenient one-pot synthesis of N-aminoamidinothioureas is reported. The improved synthetic strategy involves the selective blocking of amino functionality in aminoguanidine by Schiff base formation with carbonyl compounds to generate corresponding N-(alkylidene/arylidene)aminoguanidines and their subsequent in situ condensation with isothiocyanate. The structural motif incorporates three points for diversity multiplication, making it a suitable candidate for combinatorial synthesis. The generality of the improved procedure was established by synthesizing a series of diverse compounds through solution phase parallel synthesis by varying the carbonyl and isothiocyanate components. The newly synthesized compounds were characterized by spectral methods. The developed synthetic procedure employs mild reaction conditions, and individual steps are carefully optimized for easy automation. 相似文献