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绿色化学技术对高等药学教育改革的启示

Enlightenment of green chemistry technology to the reform of higher pharmaceutical education
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摘要 现代绿色化学技术是一个快速发展的科学领域,在过去十年中,不对称催化和流动化学技术,成为了绿色化学领域的两颗新星。未来从事药物研发和生产的技术型人才以及科学决策、组织协调的管理型人才必须在其教育中尽早接触这类快速发展的技术。笔者通过介绍药学领域新兴的绿色化学技术以及实践应用,分析美国药学高等教育和我国的现状,提出了新形势下我国高等药学教育改革的新思路,并将绿色化学技术纳入研究生课程提供新的启示。 The growing field of green chemistry and its relevance to pharmacy curriculais a rapidly developing scientific field.In the past decade,asymmetric catalysis and flow chemistry technology have become two new stars in the field of green chemistry.In the future,technical talents engaged in drug R&D and production and management talents engaged in scientific decision-making,organization and coordination must be exposed to such rapidly developing technologies as soon as possible in their education.This paper introduces some ideas of modern green chemistry technology in American pharmaceutical higher education,and provides suggestions for bringing green chemistry technology into graduate courses in Chinese higher pharmaceutical education under the new situation according to the emerging green chemistry technology and practical application.
作者 徐戴天舒 朱梦丹 戴惠芳 XU Daitianshu;ZHU Mengdan;DAI Huifang(School of pharmacy,Fudan University,Shanghai 201203,China)
机构地区 复旦大学药学院
出处 《高等药学教育研究》 2022年第4期48-53,共6页 Researches In Higher Education of Pharmacy
关键词 绿色化学 药学教育 不对称催化 流动化学 可持续发展 green chemistry pharmaceutical education asymmetric catalysis flow chemistry sustainable development
作者简介 徐戴天舒(2000-),女(汉族),浙江杭州人,药学本科生,Tel.13602210644,E-mail xdts70327@163.com;通信作者:戴惠芳(1969-),女(汉族),浙江金华人,博士,高级工程师,主要从事绿色合成技术研究和教学,Tel.13818766026,E-mail hfdai@fudan.edu.cn。
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  • 1戴立信,陆熙炎,朱光美.手性技术的兴起[J].化学通报,1995(6):15-22. 被引量:57
  • 2王春,高勇军,张英群,王志,马晶军.烯烃以糖衍生的手性酮为催化剂的有机催化不对称环氧化[J].化学进展,2006,18(6):761-767. 被引量:4
  • 3TROST B M. The atom economy: a search for synthetic efficiency[J]. Science, 1991, 254: 1471-1477.
  • 4SHELDON R A. Organic synthesis-past, present and future[J]. Chem & Ind, 1992, 23: 903-906.
  • 5JACQUES J, COLLET S, WILEN S H. Enantiomers, racemates and resolutions[M]. New York: Wiley Interscience, 1981.
  • 6BERKESSEL A, GROER H. Asymmetric organccatalysis[M]. New York: Wiley Interscience, 2005.
  • 7KLEEMANN A, ENGELS J, KUTSCHER B, REICHERT D. Pharmaceutical substances: syntheses, patents, applications[M]. 4th edition. Thieme, Stuttgart: [s. n.], 2001.
  • 8LIST B, LERNER R A, Barbas C F III. Proline-catalyzed direct asymmetric aldol reactions[J]. J Am Chem Soc, 2000, 122: 2395-2396.
  • 9OKU J-I, INOUE S. Asymmetric cyanohydrin synthesis catalysed by a synthetic cyclic dipeptide[J]. Chem Commun, 1981, 5: 229-230.
  • 10MCDOUGAL N T, SCHAUS S E. Asymmetric Morita-Baylis-Hillman reactions catalyzed by chiral Brφnsted acids[J]. J Am Chem Soc, 2003, 125: 12094.

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