Citation: Yaofeng Yuan, Keyin Ye, Chunfa Xu, Hong Yan, Yuanming Li. Fostering an International Perspective in Postgraduate Student Teaching: A Case Study of the Organic Structure Analysis Course[J]. University Chemistry, ;2024, 39(6): 145-150. doi: 10.3866/PKU.DXHX202402024 shu

Fostering an International Perspective in Postgraduate Student Teaching: A Case Study of the Organic Structure Analysis Course

College of Chemistry, Fuzhou University, Fuzhou 350108, China

Received Date: 6 February 2024
Revised Date: 4 March 2024

Postgraduate education represents the pinnacle of higher education, and is a crucial benchmark for gauging a country's competitiveness in higher education, as well as being a primary conduit for the independent cultivation of elite innovative talents. To enhance the quality of talent development, the course “Organic Structure Analysis” has undergone innovative teaching reforms. These reforms are informed by a pedagogical ethos that is "student-centric, with a strong emphasis on nurturing scientific thought, research capabilities, and a broad international outlook. This approach has tackled the course’s challenging aspects through the internationalization of teaching philosophies, content, teams, and methodologies. The outcomes have significantly elevated the students’ scholarly calibre and have provided a robust impetus in fostering innovative talent.
- International perspective,
- Organic structure analysis,
- Student-centric,
- Postgraduate education
1. [1]
2. [2]
3. [3]
4. [4]
5. [5]
6. [6]
7. [7]
  Silverstein, R. M.; Webster, F.X.; Kiemle, D. J. Spectrometric Identification of Organic Compounds, 7thed.; John Wiley and Sons:Hoboken, NJ, USA, 2005; pp. 1-502.
8. [8]
  Williams, D. H.; Fleming, I. SpectroscopicMethods in Organic Chemistry, 5th ed.; The McGraw-Hill:London, UK,1995; pp. 1-329.
9. [9]
10. [10]
11. [11]
  ChemistryWeb Book.[2024-03-11]. http://webbook.nist.gov
12. [12]
  SpectralDatabase for Organic Compounds.[2024-03-11]. https://sdbs.db.aist.go.jp/sdbs/cgi-bin/direct_frame_top.cgi
13. [13]
  OrganicCompounds Database.[2024-03-11]. https://www.colby.edu/chemistry/cmp/cmp.html
14. [14]
  SpectraOnline, Galactic.[2024-03-11]. http://www.ftirsearch.com
15. [15]
  MoNA-MassBank of North America.[2024-03-11]. https://mona.fiehnlab.ucdavis.edu
16. [16]
  ScrippsCenter for Metabolomics.[2024-03-11]. https://masspec.scripps.edu
17. [17]
  nmrshiftdb2-opennmr database on the web.[2024-03-11]. https://nmrshiftdb.nmr.uni-koeln.de
18. [18]
  BMRB-BiologicalMagnetic Resonance Bank.[2024-03-11]. http://www.bmrb.wisc.edu
19. [19]
20. [20]
21. [21]
22. [22]
23. [23]
24. [24]
25. [25]
26. [26]
  Oguadinma,P.; Bilodeau, F.; LaPlante, S. R. Bioorg. Med. Chem. Lett. 2017, 27,242.
27. [27]
  Daloze, D.;Braekman, J. C.; Pasteels, J. M. Science 1986, 233 (4760),221.
28. [28]
1. [1]
  Sha Pan , Bairu Yu , Jun Li , Ling Wu , Dan Li , Tianji Ma , Zhong Cao . 新形势发展驱动的分析化学双语教学改革之浅见. University Chemistry, 2025, 40(8): 338-344. doi: 10.12461/PKU.DXHX202410056
2. [2]
  Jinxin Guo , Shuyong Zhang , Rongxiu Zhu , Zhenghu Xu . Exploration and Practice of University Chemistry Laboratory Course Reform in the Context of Emerging Medical Education. University Chemistry, 2024, 39(8): 16-22. doi: 10.3866/PKU.DXHX202311062
3. [3]
  Xuzhen Wang , Xinkui Wang , Dongxu Tian , Wei Liu . Enhancing the Comprehensive Quality and Innovation Abilities of Graduate Students through a “Student-Centered, Dual Integration and Dual Drive” Teaching Model: A Case Study in the Course of Chemical Reaction Kinetics. University Chemistry, 2024, 39(6): 160-165. doi: 10.3866/PKU.DXHX202401074
4. [4]
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5. [5]
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6. [6]
  Yifang Xu , Jie Zheng , Liangbing Gan . The Conception and Practice of Cultivating Outstanding and Diverse Graduate Students in Basic Disciplines: A Case Study of Graduate Student Cultivation in Chemistry Program at Peking University. University Chemistry, 2024, 39(6): 1-6. doi: 10.3866/PKU.DXHX202404018
7. [7]
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8. [8]
  Zhen Shen , Yi Wang , Chen Lin , Kin Shing Chan . 南京大学化学生物学专业本科生有机化学英文教学经验. University Chemistry, 2025, 40(6): 43-47. doi: 10.12461/PKU.DXHX202407083
9. [9]
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10. [10]
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11. [11]
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12. [12]
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13. [13]
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14. [14]
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15. [15]
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16. [16]
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17. [17]
  Lewang Yuan , Yaoyao Peng , Zong-Jie Guan , Yu Fang . Insights into the development of 2D covalent organic frameworks as photocatalysts in organic synthesis. Acta Physico-Chimica Sinica, 2025, 41(8): 100086-0. doi: 10.1016/j.actphy.2025.100086
18. [18]
  Aiai WANG , Lu ZHAO , Yunfeng BAI , Feng FENG . Research progress of bimetallic organic framework in tumor diagnosis and treatment. Chinese Journal of Inorganic Chemistry, 2024, 40(10): 1825-1839. doi: 10.11862/CJIC.20240225
19. [19]
  Ran HUO , Zhaohui ZHANG , Xi SU , Long CHEN . Research progress on multivariate two dimensional conjugated metal organic frameworks. Chinese Journal of Inorganic Chemistry, 2024, 40(11): 2063-2074. doi: 10.11862/CJIC.20240195
20. [20]
  Bin HE , Hao ZHANG , Lin XU , Yanghe LIU , Feifan LANG , Jiandong PANG . Recent progress in multicomponent zirconium?based metal-organic frameworks. Chinese Journal of Inorganic Chemistry, 2024, 40(11): 2041-2062. doi: 10.11862/CJIC.20240161

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