日本色情片

师资力量

日本色情片 > 师资力量 > 师资队伍概况 > 正文

余达刚教授、博士生导师

研究方向：二氧化碳利用、自由基化学（可见光化学、电化学）、廉价金属催化

联系方式：028-85470816 Email：[email protected] (优先) [email protected]

个人主页：点击进入

简历：

余达刚博士，男，1986年9月出生于江西奉新。

学习经历

2003.09—2007.07 日本色情片读本科，导师：冯小明教授，袁立华教授

2007.09—2012.07北京大学化学与分子工程日本色情片有机化学专业攻读博士学位，导师：施章杰教授

工作经历

2012.10—2014.12 德国明斯特大学进行博士后研究，洪堡学者，导师： Prof. Frank Glorius

2015.01至今日本色情片从事教学和科研，教授, 博士生导师

学术兼职

Chem. Synth.副主编

Chin. Chem. Lett.副主编

《化学学报》、《有机化学》、Asian J. Org. Chem.编委

Sci. Bull. 和《科学通报》、Sci. China Chem.和《中国科学-化学》、Chin. J. Catal.青年编委

Tetrahedron Green Chem, Advisory Board Member

中国化学会二氧化碳化学专业委员会委员

中国化学会光化学专业委员会委员

中国化学会催化委员会均相催化专业委员会委员

中国化学会青年化学工作者委员会第三届委员

中国感光学会第一届青年理事会理事

主要研究方向

绿色有机合成化学（二氧化碳利用、可见光催化、电化学）

过渡金属催化方法学（铜、铁等廉价金属催化）

功能分子构建新方法研究（重要杂环、羧酸合成）

诚招副研究员、博后、研究助理、硕博生以及交流生

主要工作业绩

二氧化碳（CO₂）作为空气中的重要组分，也是广泛存在、廉价易得、无毒、稳定、可再生循环使用的“碳一”（C1）资源。由于CO₂在热力学和动力学方面有较高的稳定性，反应活性较低，CO₂活化具有巨大的挑战。2015年余达刚博士独立建组以来，坚持围绕CO₂活化与转化的基本科学问题开展独特研究，发展了CO₂高效活化与选择性转化的新理念、新策略和新反应，具体如下：

针对碳氢键氧化羰基化反应中存在的问题（需要使用剧毒的CO和当量的氧化剂），我们首次提出“CO₂ = CO + [O]”理念，利用CO₂代替CO和氧化剂参与碳氢键羰基化反应，发展了近十类重要含羰基杂环类化合物的高效合成方法，提出了新反应机制，不仅变废为宝，还降低成本，提高安全性，具有较强的实用性；基于过渡金属催化和可见光催化策略，我们发展了“自由基型CO₂转化”模式，一方面通过调控自由基参与不饱和烃转化反应的选择性，在室温常压下实现了噁唑啉酮和多种类型羧酸的高效制备，另一方面基于“可见光促进单电子活化”策略和电还原策略，通过单电子还原CO₂或底物形成自由基负离子，实现了具有独特区域选择性的烯烃羧基化反应以及氮杂芳烃区域选择性可调控的羧基化反应；基于极性翻转策略，我们通过惰性化学键（如碳氟键、碳氮键和碳氧键）的选择性断裂实现了CO₂参与的羧基化反应；此外，我们实现了铜或镍催化CO₂参与的不饱和烃的碳碳成键反应，取得了优秀的对映选择性、化学选择性、区域选择性和Z/E选择性，高效构建了具有手性（季碳）中心的高苄醇、高烯丙醇和羧酸。这些工作实现了CO₂的变废为宝和高附加值产品的精准合成，为研究CO₂活化的本质和规律提供了新的实验基础和理论模型，为促进我国CO₂化学研究起了积极的作用。

独立工作以来，余达刚博士以通讯作者身份在Nature、Nature Catal.、Nature Synth.、Acc. Chem. Res.、Chem.、J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、Nature Commun.、Sci. Bull.、Chin. J. Catal.、CCS Chem.、Sci. China Chem.、Chin. Chem. Lett.和Chin. J. Chem.等学术刊物上发表学术论文110余篇，其中有多篇论文成为相应期刊封面、扉页文章、VIP和当月下载量前列的文章，多篇被国家自然科学基金委、科学网、中国网、ChemistryViews、Synform、Synfacts、Organic Chemistry Portal、OPR&D和《有机化学》等作为亮点介绍。此外，在国内外学术会议、大学和企业做了130余次报告，并作为共同客座编辑组织了Chin. J. Chem.、Green Chem.和Chin. J. Catal.等期刊的“二氧化碳化学”专辑。

主要奖励和荣誉

2025年度新时代青年先锋奖

2024年第十八届中国青年科技奖

2024年日本色情片 “十佳”学生集体

2024年日本色情片中长期“双高计划”

2023年中国化学会-英国皇家化学会青年化学奖

2023年度四川十大科学进展

爱思唯尔 (Elsevier) 2023“中国高被引学者”

2023年日本色情片十大基础研究进展奖

2023年日本色情片优秀本科毕业论文指导教师

2022年国家自然科学基金委杰出青年基金

2022 Kyoto Rising-Star Lectureship Award

2022年四川省学术和技术带头人

2021年中国催化新秀奖

2021年川渝科学技术大会优秀学术论文一等奖

2021年日本色情片 “先进个人”、日本色情片百人计划A

2021年大学生创新创业教育优秀指导教师、日本色情片拔尖创新人才优秀指导教师、日本色情片优秀社团指导教师

2020年“Science China Chemistry” Emerging Investigator

2020年“Chemical Communications” Emerging Investigator

2020年日本色情片 “中青年科技领军人才培育计划”

2019年日本色情片优秀本科毕业论文指导教师、日本色情片拔尖创新人才培养优秀指导教师、日本色情片大学生创新创业教育优秀指导教师、日本色情片课堂教学质量优秀奖

2018年中国化学会青年化学奖

2018年国家自然科学基金委优秀青年基金

2018年霍英东青年教师基金

2018年日本色情片优秀教师、日本色情片优秀青年科技人才奖

2017 ACP Lectureship Awards to Japan

2017 Thieme Chemistry Journal Award

2017年日本色情片优秀本科毕业论文指导教师、日本色情片拔尖创新人才优秀指导教师、日本色情片大学生创新创业教育优秀指导教师

2016年“Organic Chemistry Frontiers” Emerging Investigator

2016年日本色情片青年科技人才奖、日本色情片优秀本科毕业论文指导教师

2014年海外高层次人才引进计划青年项目

2013-2014年德国洪堡奖学金

2013年Reaxys PhD Prize (Finalist)

代表性成果 （获奖成果、专著、论文、专利）

1. W. Wang,^† S.-S. Yan,^† Y. Liu, J.-S. Zhu, J.-W. Yang, J.-C. Xu, Y.-Y. Tao, J.-C. Li, L. Song, J.-H. Ye,* D.-G. Yu*, Photocatalytic 1,2-Dicarboxylation of Unactivated Alkynes with CO₂. J. Am. Chem. Soc. 2025. (^†Equal contribution.)

2. Chao Li,^† X.-W. Chen,^† L.-L. Liao,^† Y.-Y. Gui*, J.-W. Yang, S. Zhang, J.-P. Yue, X. Zhou*, J.-H. Ye, Y. Lan, D.-G. Yu*, Nickel-Catalyzed Atroposelective Carbo-Carboxylation of Alkynes with CO₂: En Route to Axially Chiral Carboxylic Acids. Angew. Chem. Int. Ed. 2025, 64, e202413305. (^†Equal contribution. Hot Paper. Highlighted by化学深耕堂、X-Mol、CBG、有机文献速览、微算云平台)

3. J.-C. Xu,^† J.-P. Yue,^† M. Pan, Y.-C. Chen, W. Wang, X. Zhou, W. Zhang*, J.-H. Ye, D.-G. Yu*, Metallaphotoredox-catalyzed alkynylcarboxylation of alkenes with CO₂ and alkynes for expedient access to β-alkynyl acids. Nat. Commun. 2025, 16, 1850. (^† Equal contribution. Highlighted by Synfacts 2025, 21, 594;有机文献速览、化学身边学、邃瞳科学云)

4. G.-M. Cao,^† S.-S. Yan,^† L. Song,* Y.-X. Jiang, T.-Y Gao, Z. Chen, W. Zhang,* J.-H. Ye, D.-G. Yu*, Navigating the functionalization of unactivated alkenes via visible-light photocatalysis. Chem. Soc. Rev. 2025, accepted. (^†Equal contribution.)

5. H.-Y. Huang, M. Xie, S.-Q. Wang, Y.-T. Huang, Y.-H. Luo, D.-G. Yu, Z.-Z. Cai*, J.-B. Zhu*, Ultratough Thermoplastic Elastomers Based on Chemically Recyclable Cycloalkyl-Substituted Polyhydroxyalkanoates. J. Am. Chem. Soc. 2025, 147, 7788.

6. Y.-X. Jiang, L.-L. Liao, J.-H. Ye*, D.-G. Yu*, Visible-Light-Driven Thiolate-Catalyzed Carboxylation of C(sp²)-H Bonds in Azines with CO₂. Synlett 2025, DOI: 10.1055/a-2523-4762. (Invited Synpact paper)

7. Z. Zhang*, X.-L. Chen, X.-M. Xie, T.-Y. Gao, J. Qin, J.-J. Li, C. Feng, D.-G. Yu*, Iron-promoted carbonylation–rearrangement of α-aminoaryl-tethered alkylidenecyclopropanes with CO₂: Facile synthesis of quinolinofurans. Chin. Chem. Lett. 2025, 36, 110056.

8. R. Ye,^† J. Ming,^† Q. Tao, T.-Y. Gao, J.-H. Ye, D.-G. Yu*, X. Zhou*, Transition-metal-free isofunctional reaction of α,β-unsaturated ketones/nitriles. Sci. China Chem. 2025, 68, 499-504. (^†Equal contribution. Highlighted by化学深耕堂、SCC)

9. G.-Q. Sun, L.-L. Liao, C.-K. Ran, J.-H. Ye, D.-G. Yu*, Recent Advances in Electrochemical Carboxylation with CO₂. Acc. Chem. Res. 2024, 57, 2728-2745.(内封面，当月下载量前3)

10. J. Liu,^† W. Wang,^† L.-L. Liao,^† W. Zhang, J.-P. Yue, Y. Liu, X.-W. Chen, J.-H. Ye*, D.-G. Yu*, Photo-Induced Carboxylation of C(sp²)−S Bonds in Aryl Thiols and Derivatives with CO₂. Nat. Commun. 2024, 15, 10132. (^†Equal contribution. Highlighted by化学深耕堂、有趣的化学合成、化学加、CBG)

11. Y. Liu, G.-H. Xue, Z. He, J.-P. Yue, M. Pan, L. Song*,W. Zhang,J.-H. Ye, D.-G. Yu*, Visible-Light Photoredox-Catalyzed Direct Carboxylation of Tertiary C(sp³)–H Bonds with CO₂: Facile Synthesis of All-Carbon Quaternary Carboxylic Acids. J. Am. Chem. Soc. 2024, 146, 28350-28359. (当月下载量前13. Highlighted by Synfacts、化学深耕堂、X-Mol、CBG、催化计、催化开天地、催化加易点、岳麓化学、八桂化学、有机文献速览、微算云平台)

12. Q. Hu, B. Wei, M. Wang, M. Liu, X.-W. Chen, C.-K. Ran, G. Wang, Z. Chen, H. Li, J. Song, D.-G. Yu*, C. Guo*, Enantioselective nickel-electrocatalyzed reductive propargylic carboxylation with CO₂. J. Am. Chem. Soc. 2024, 146, 14864–14874 (Highlighted by化学深耕堂、X-Mol、eChemStore)

13. X.-W. Chen, C. Li, Y.-Y. Gui,* J.-P. Yue, Q. Zhou, L.-L. Liao, J.-W. Yang, J.-H. Ye, D.-G. Yu*, Atropisomeric Carboxylic Acids Synthesis via Nickel-Catalyzed Enantioconvergent Carboxylation of Aza-biaryl Triflates with CO₂. Angew. Chem. Int. Ed. 2024, 63, e202403401. (Highlighted by X-Mol、化学深耕堂、能源技术情报、科研留声机、CRS化学资讯、光电材料与器件)

14. Y.-Y. Gui,*^,† X.-W. Chen,^† X.-Y. Mo, J.-P. Yue, R. Yuan, Y. Liu, L.-L. Liao, J.-H. Ye, D.-G. Yu*, Cu-Catalyzed Asymmetric Dicarboxylation of 1,3-Dienes with CO₂. J. Am. Chem. Soc. 2024, 146, 2919–2927. (^†Equal contribution. Highlighted by化学深耕堂、X-Mol、CBG)

15. Y.-X. Jiang,^† L.-L. Liao,^† T.-Y. Gao, W.-H. Xu, W. Zhang, L. Song, G.-Q. Sun, J.-H. Ye*, Y. Lan*, D.-G. Yu*, Visible-light-driven synthesis of N-heteroaromatic carboxylic acids by thiolate-catalysed carboxylation of C(sp⟡)-H bonds using CO₂. Nat. Synth. 2024, 3, 394–405. (^†Equal contribution. Highlighted by化学加、化学深耕堂、催化计、化学宝库、有趣的化学合成、CBG)

16. B. Yu,^† Y. Liu,^† H.-Z. Xiao,^† S.-R. Zhang, C.-K. Ran, L. Song, Y.-X. Jiang, C.-F. Li, J.-H. Ye,* D.-G. Yu*, Switchable Divergent Di- or Tricarboxylation of Allylic Alcohols with CO₂. Chem 2024, 10, 938-951. (Highlighted by科学网、化学加、CBG、化学深耕堂、催化计、化学宝库、有趣的化学合成)

17. Y. Yan,^† M. Pan,^† J. Ming,* J.-P. Yue, X.-W. Chen, Y.-Y. Gui,* D.-G. Yu*, Transition-Metal-Catalyzed Construction of Axially Chiral Carbonyl Compounds. Eur. J. Org. Chem. 2024, 27, e202400995 (^†Equal contribution. Invited concept)

18. S.-R. Zhang,^† J.-P. Yue,^† L.-F. Wang, Y.-Y. Gui, W. Zhang,* D.-G. Yu, J.-H. Ye*, Dearomative hydroamination of heteroarenes catalyzed by the phenolate photocatalyst. Chem. Commun. 2024, 60, 13083-13086. (^†Equal contribution. ChemComm Emerging Investigators themed collection)

19. Y.-Y. Gui,^† X.-W. Chen,^† J.-P. Yue, D.-G. Yu*, Synergistic photoredox/palladium catalysis enables enantioconvergent carboxylation of racemic heterobiaryl (pseudo)halides with CO₂. Chem. Synth. 2024, 4, 66. (^†Equal contribution. Highlight)

20. L. Li,^† Z.-X. Yan,^† C.-K. Ran,^† Y. Liu, S. Zhang, T.-Y. Gao, L.-F. Dai, L.-L. Liao,* J.-H. Ye, D.-G. Yu*, Electro-reductive carboxylation of C─Cl bonds in unactivated alkyl chlorides and polyvinyl chloride with CO₂. Chin. Chem. Lett. 2024, 35, 110104. (^† Equal contribution)

21. K.-G. Cao,^† T.-Y. Gao,^† L.-L. Liao,* C.-K. Ran, Y.-X. Jiang, W. Zhang, Q. Zhou, J.-H. Ye, Y. Lan, D.-G. Yu*, Photocatalytic carboxylation of styrenes with CO₂ via C=C double bond cleavage. Chin. J. Catal. 2024, 56, 74-80. (^†Equal contribution)

22. C.-K. Ran, Q. Qu, Y.-Y. Tao, Y.-F. Chen, L.-L. Liao*, J.-H. Ye, D.-G. Yu*, Electro-Reductive Carboxylation of Acyclic C(sp³)─C(sp³) Bonds in Aromatic Hydrocarbons with CO₂. Sci. China Chem. 2024, 67, 3366–3372.

23. X. Yao, Z. Wang*, D.-G. Yu*, Sustainable Electrosynthesis: Enantioselective Electrochemical Rh(III)/Chiral Carboxylic Acid-Catalyzed Oxidative C-H Cyclization Coupled with Hydrogen Evolution Reaction. Chin. Chem. Lett. 2024, 35, 109916. (Editorial)

24. T.-Y. Gao, X.-Y. Mo, S.-R. Zhang, Y.-X. Jiang, S.-P. Luo, J.-H. Ye,* D.-G. Yu*, Visible-light photoredox-catalyzed carboxylation of aryl epoxides with CO₂. Chin. Chem. Lett. 2024, 35, 109364.

25. Y. Liu,^† Z.-H. Wang,^† L. Yuan, Y. Li, D.-G. Yu, J.-H. Ye*, Photocatalytic Dicarboxylation of Strained C–C Bonds with CO₂ via Consecutive Visible-Light-Induced Electron Transfer. Chin. Chem. Lett. 2024, 35, 109138 (^†Equal contribution)

26. 贵永远, 陈小旺, 余达刚*，铜催化二氧化碳参与的芳基烯烃不对称硼羧化反应。有机化学，2024，44，1038-1040 (亮点评述)

27. G.-Q. Sun,^† P. Yu,^† W. Zhang,^† W. Zhang, Y. Wang, L.-L. Liao, Z. Zhang, L. Li, Z. Lu, D.-G. Yu*, S. Lin* Nature 2023, 615, 67 (^†Equal contribution. Highlighted by 中国网、基金委、 Chem, Chem. Syn., Chin. Sci. Bull., Chin. Chem. Lett.、X-MOL、化学加、能源学报、日本色情片主页)

28. J.-P. Yue, J.-C. Xu, H.-T. Luo, X.-W. Chen, H.-X. Song, Y. Deng, L. Yuan, J.-H. Ye*, D.-G. Yu*, Nat. Catal. 2023, 6, 959–968.（Highlighted by Sci. China Chem.、Synfacts 2024, 20, 0058、研之成理、催化+、化学加、今日新材料、日本色情片主页）.

29. W. Zhang, D.-G. Yu*, J.-H. Ye*, Chem 2023, 9, 2375-2377 (Highlight)

30. W. Zhang, Z. Chen,Y.-X. Jiang, L.-L. Liao, W. Wang, J.-H. Ye*, D.-G. Yu*, Nat. Commun. 2023, 14, 3529.

31. W. Zhang,^† L.-L. Liao,^† L. Li, Y. Liu, L.-F. Dai, G.-Q. Sun, C.-K. Ran, J.-H. Ye*, Y. Lan*, D.-G. Yu*, Angew. Chem. Int. Ed. 2023, 62, e202301892. (^†Equal contribution)

32. L. Chen, Q. Qu, C.-K. Ran, W. Wang, W. Zhang, Y. He,L.-L. Liao,J.-H. Ye*, D.-G. Yu*, Angew. Chem. Int. Ed. 2023, 62, 202217918. (Highlighted by Synfacts 2023, 19, 0527)

33. S.-Y. Min, H.-X. Song, S.-S. Yan*, R. Yuan, J.-H. Ye, B.-Q. Wang, Y.-Y. Gui*, D.-G. Yu*, Green Chem. 2023, 25, 6194-6199.

Graphical abstract: Photocatalytic defluorocarboxylation using formate salts as both a reductant and a carbon dioxide source

34. H.-Z. Xiao,^†B. Yu,^† S.-S. Yan, W. Zhang, X.-X. Li, Y. Bao, S.-P. Luo, J.-H. Ye*, D.-G. Yu*, Chin. J. Catal. 2023, 50, 222 (^†Equal contribution)

35. M. Miao, L. Zhu, H. Zhao, L. Song, S.-S. Yan, L.-L. Liao, J.-H. Ye*, Y. Lan*, D.-G. Yu*, Sci. China Chem. 2023, 66, 1457.

36. Y.-Y. Gui,^† X.-W. Chen,^† D.-G. Yu*, Sci. Bull. 2023, 68, 1225 (^†Equal contribution)

37. C.-K. Ran,^† H.-Z. Xiao,^† L.-L. Liao,* T. Ju, W. Zhang, D.-G. Yu*, . Natl. Sci. Open 2023, 2, 20220024.

38. Q. Qu,^† L. Chen,^† Y. Deng, Y.-Y. Gui*, D.-G. Yu*, Synlett 2023, 34, 1385-1390 (^†Equal contribution)

39. K. Ren^†, R. Yuan^†, Y.-Y. Gui*, X.-W. Chen, S.-Y. Min, B.-Q. Wang, D.-G. Yu*, Org. Chem. Front. 2023, 10, 467. (^†Equal contribution).

40. L. Song,^† W. Wang,^† J.-P. Yue, Y.-X. Jiang, M.-K. Wei, H.-P. Zhang, S.-S. Yan, L.-L. Liao, D.-G. Yu*, Nat. Catal. 2022, 5, 832 (^†Equal contribution)

41. C.-K. Ran, D.-G. Yu*, Nat. Chem. Rev. 2022, 6, 679 (News & Views)

42. W.-J. Zhou, C.-K. Ran, D.-G. Yu*, 有机化学 2022, 42, 2599.

43. Z. Zhang, Y. Deng, Q.-F. Zhang*, D.-G. Yu*, 高等学校化学学报2022, 43, 20220255.

44. Z.-Y. Bo^†, S.-S. Yan^†, T.-Y. Gao, L. Song, C.-K. Ran, Y. He, W. Zhang*, G.-M. Cao, D.-G. Yu*, Chin. J. Catal. 2022, 43, 2388-2394. (^†Equal contribution)

45. Y. Huang,* D.-G. Yu*, G. Wang,* Chin. J. Catal. 2022, 43, 1545-1546. (Editorial)

46. L.-L. Liao, L. Song, S.-S. Yan, J.-H. Ye,* D.-G. Yu*, Trend. Chem. 2022, 4, 512-527.

47. L.-L. Liao, Z.-H. Wang, K.-G. Cao, G.-Q. Sun, W. Zhang, C.-K. Ran, Y. Li, L. Chen, G.-M. Cao, D.-G. Yu*, J. Am. Chem. Soc. 2022, 144, 2062.

48. C.-K. Ran,^† Y.-N. Niu,^† L. Song, M.-K. Wei, Y.-F. Cao, S.-P. Luo, Y.-M. Yu, L.-L. Liao,* ACS Catal. 2022, 12, 18. (^†Equal contribution. Top 1 of the most read articles in ACS Catal. in December 2021 )

49. K. Jing, M.-K. Wei, S.-S. Yan, L.-L. Liao, Y.-N. Niu, S.-P. Luo, B. Yu*, D.-G. Yu*, Chin. J. Catal. 2022, 43, 1667. (Invited contribution for "Catalytic Conversion of CO₂")

50. X.-Y. Zhou, X.-Y. Li, Z. Zhang*, D.-G. Yu*, Chin. Chem. Lett. 2021, 32, 4015..

51. G.-Q. Sun, W. Zhang, L.-L. Liao, L. Li, Z.-H. Nie, J.-G. Wu, Z. Zhang, D.-G. Yu*, . Nat. Commun. 2021, 12, 7086.

52. J. Liu^†, H.-Z. Xiao^†, Q. Fu,* D.-G. Yu*, Chem. Syn. 2021, 1, 9 (^†Equal contribution. Invited contribution)

53. S.-S. Yan, S.-H. Liu, L. Chen, Z.-Y. Bo, K. Jing, T.-Y. Gao, B. Yu, Y. Lan,* S.-P. Luo, D.-G. Yu*, Chem 2021, 7, 3099.

54. X.-Y. Zhu,^† C.-K. Ran,^† M. Wen, G.-L. Guo, Y. Liu, L.-L. Liao, Y.-Z. Li,* M.-L. Li, D.-G. Yu*, Chin. J. Chem. 2021, 39, 3231 (^†Equal contribution)

55. C.-K. Ran,^† L.-L. Liao,^† T.-Y. Gao, Y.-Y. Gui*, D.-G. Yu*, Cur. Opin. Green Sustain. Chem. 2021, 32, 100525 (^†Equal contribution)

56. D.-G. Yu*, L.-N. He*, Introduction to CO₂ utilisation. Green Chem. 2021, 23, 3499. (Editorial)

57. J.-H. Ye, T. Ju, H. Huang, L.-L. Liao, D.-G. Yu*, Radical Carboxylative Cyclizations and Carboxylations with CO₂. Acc. Chem. Res. 2021, 54, 2518.

58. T. Ju, Y.-Q. Zhou, K.-G. Cao, Q. Fu, J.-H. Ye, G.-Q. Sun, X.-F. Liu, L. Chen, L.-L. Liao, D.-G. Yu*, Nat. Catal. 2021, 4, 304–311.

59. G.-M. Cao, X.-L. Hu, L.-L. Liao, S.-S. Yan, L. Song, J. J. Chruma, L. Gong, D.-G. Yu*, Nat. Commun. 2021, 12, 3306

.

60. Y.-N. Niu^†, X.-H. Jin^†, L.-L. Liao^†, H. Huang, B. Yu, Y.-M. Yu*, D.-G. Yu*, Sci. China Chem. 2021, 64, 1164

61. X.-W. Chen, J.-P. Yue, K. Wang,Y.-Y. Gui,Y.-N. Niu, J. Liu, C.-K. Ran,W. Kong,* W.-J. Zhou, D.-G. Yu*, Angew. Chem. Int. Ed. 2021, 60, 14068 (Highlighted by WielyChem, X-Mol, CBG).

62. L.-L. Liao, G.-M. Cao, Y.-X. Jiang, X.-H. Jin, X.-L. Hu, J. J. Chruma, G.-Q. Sun, Y.-Y. Gui, D.-G. Yu*, J. Am. Chem. Soc. 2021, 143, 2812 (One of the most read JACS papers in March, 2021. Highlighted by Synfacts, Chin. J. Org. Chem., CBG, X-Mol and WeeChem)

63. Y.-M. Jiang,^† J. Liu,^† Q. Fu,* Y.-M. Yu,* D.-G. Yu*, Synlett 2021, 32, 378 (^†Equal contribution. Invited contribution for "Radicals by Young Chinese Organic Chemists")

64. C.-K. Ran, L. Song, Y.-N. Niu, M.-K. Wei, Z. Zhang,* X.-Y. Zhou, D.-G. Yu*, Green Chem. 2021, 23, 274 (Invited for Special Issue: CO₂ Utilization. Highlighted by Chem-station and RSC China)

65. Y.-X. Jiang, L. Chen, C.-K. Ran, L. Song, W. Zhang,* L.-L. Liao, D.-G. Yu*, ChemSusChem 2020, 13, 6312. (Invited for Special Issue: Green Carbon Science-CO₂ Capture and Conversion)

66. Z. Zhang,^† J.-H. Ye,^† T. Ju, L.-L. Liao, H. Huang, Y.-Y. Gui, W.-J. Zhou,* D.-G. Yu*, ACS Catal. 2020, 10, 10871. (^†Equal contribution. Perspective)

67. L. Song, D.-M. Fu,L. Chen, Y.-X. Jiang,J.-H. Ye, L. Zhu, Y. Lan,* Q. Fu, D.-G. Yu*, . Angew. Chem. Int. Ed. 2020, 59, 21121. (Hot Paper. Highlighted by Synfacts 2020, 16, 1372; Chin. J. Org. Chem. 2020, 40, 4375; WielyChem).

68. H. Huang,^† J.-H. Ye,^† L. Zhu,^† C.-K. Ran, M. Miao, W. Wang, H. Chen, W.-J. Zhou, Y. Lan,* B. Yu, D.-G. Yu*, CCS Chem. 2020, 2, 1746 (^†Equal contribution.)

69. W.-J. Zhou,^†* X.-D. Wu,^† M. Miao, Z.-H. Wang, L. Chen, S.-Y. Shan, G.-M. Cao, D.-G. Yu*, Chem. Eur. J. 2020, 26, 15052. (^†Equal contribution. Invited Concept)

70. W.-J. Zhou,^† Z.-H. Wang,^† L.-L. Liao, Y.-X. Jiang, K.-G. Cao, T. Ju, Y. Li, G.-M. Cao, D.-G. Yu*, Nat. Commun. 2020, 11, 3263. (^†Equal contribution)

71. C.-K. Ran,^† X.-W. Chen,^† Y.-Y. Gui*, J. Liu, L. Song, K. Ren, D.-G. Yu*, Sci. China Chem. 2020, 63, 1336. (^†Equal contribution. Sci. China Chem. Emerging Investigators themed collection)

72. 周文俊*^‡，蒋元旭^‡，陈亮，刘开兴，余达刚*，有机化学，2020，40, 3697（应邀综述.^‡Equal contribution）

73. L. Song, Y.-X. Jiang, Z. Zhang,* Y.-Y. Gui, X.-Y. Zhou, D.-G. Yu*, Chem. Commun. 2020, 56, 8355 (ChemComm Emerging Investigators themed collection)

74. Z. Zhang,*^‡ X.-Y. Zhou,^‡ J.-G. Wu, L. Song, D.-G. Yu*, Green Chem. 2020, 22, 28. (^‡Equal contribution)

75. C.-K. Ran, H. Huang, X.-H. Li, W. Wang, J.-H. Ye, S.-S. Yan, B.-Q. Wang, C. Feng,* D.-G. Yu*, Chin. J. Chem. 2020, 38, 69 (Invited paper)

76. X.-W. Chen, L. Zhu, Y.-Y. Gui, K. Jing,Y.-X. Jiang,Z.-Y. Bo,Y. Lan,* J. Li, D.-G. Yu*, . J. Am. Chem. Soc. 2019, 141, 18825. (Highlighted by ChemBeanGo and Chin. J. Org. Chem. 2020, 40, 247)

$说明: E:\课题组网页宣传栏\TOC\19 JACS.gif$

77. M. Miao, L.-L. Liao, G.-M. Cao, W.-J. Zhou,* D.-G. Yu*, . Sci. China Chem. 2019, 62, 1519. (Invited Contribution to SPECIAL ISSUE: Organic Free Radical Chemistry)

$说明: E:\课题组网页宣传栏\TOC\19 SCC MM.png$

78. Z. Zhang, L. Gong, X.-Y. Zhou, S.-S. Yan, J. Li*, D.-G. Yu*, . Acta Chim. Sinica 2019, 77, 783 (Invited Contribution to SPECIAL ISSUE: Organic Radical Chemistry)

$说明: E:\课题组网页宣传栏\TOC\2019 化学学报.jpg$

79. Q. Fu, Z.-Y. Bo, J.-H. Ye, T. Ju, H. Huang, L.-L. Liao, D.-G. Yu*, . Nat. Commun. 2019, 10, 3592.

$说明: E:\课题组网页宣传栏\TOC\19 NCOMM.jpg$

80. S.-S. Yan, D.-S. Wu, J.-H. Ye, L. Gong, X. Zeng, C.-K. Ran, Y.-Y. Gui, J. Li, D.-G. Yu*, . ACS Catal. 2019, 9, 6987. (Highlighted by Synfacts 2019, 15, 1159)

$说明: E:\课题组网页宣传栏\TOC\19 ACS catalysis.gif$

81. W.-J. Zhou,* G.-M. Cao, Z.-P. Zhang, and D.-G. Yu*, . Chem. Lett. 2019, 48, 181. (Invited Contribution. Cover)

$说明: E:\课题组网页宣传栏\TOC\19 CL cover.jpg$

82. Y. Chen*, L.-Q. Lu*, D.-G. Yu*, C.-J. Zhu* and W.-J. Xiao*, . Sci. China Chem. 2019, 62, 24. (Invited Contribution)

$说明: E:\课题组网页宣传栏\TOC\19 SCC photo.png$

83. L.-L. Liao, G.-M. Cao, J.-H. Ye, G.-Q. Sun, W.-J. Zhou,Y.-Y. Gui, S.-S. Yan, G. Shen, D.-G. Yu*, . J. Am. Chem. Soc. 2018, 140, 17338. (Top 1 most read JACS papers in December, 2018.)

84. T. Ju, Q. Fu, J.-H. Ye, Z. Zhang, L.-L. Liao, S.-S. Yan, X.-Y. Tian, S.-P. Luo, J. Li, D.-G. Yu*, Angew. Chem. Int. Ed. 2018, 57, 13897.

85. S.-S. Yan, Q. Fu, L.-L. Liao, G.-Q. Sun, J.-H. Ye, L. Gong, Y.-Z. Bo-Xue, D.-G. Yu*, Coord. Chem. Rev. 2018, 374, 439. (Invited Contribution)

86. W.-J. Zhou,*^† Yi-Han Zhang,^† Y.-Y. Gui, L. Sun, D.-G. Yu*, Synthesis 2018, 50, 3359. (^†Equal contribution. Invited Contribution to the Special Issue on “Photocatalysis”)

87. L. Song,L. Zhu, Z. Zhang, J.-H. Ye, S.-S. Yan,J.-L. Han, Z.-B. Yin, Y. Lan*, D.-G. Yu*, Org. Lett. 2018, 20, 3776. (Top 14 most read papers in July, 2018)

88. Z. Zhang,*^†J.-H. Ye,^†D.-S. Wu, Y.-Q. Zhou, D.-G. Yu*, Chem. Asian J. 2018, 13, 2292. (^†Equal contribution. Invited Contribution to the Special Issue on “Homogeneous Catalysis from Young Investigators in Asia”)

$说明: C:\Users\Administrator\Desktop\zzz.jpg$

89. L. Song, G.-M. Cao, W.-J. Zhou, J.-H. Ye, Z. Zhang, X.-Y. Tian, J. Li, D.-G. Yu*, Org. Chem. Front. 2018, 5, 2086. (Invited Contribution to the Special Issue on “Celebrating the 90th birthday of Professor Lu Xiyan”)

90. G. Shen, W.-J. Zhou*, X.-B. Zhang, G.-M. Cao, Z. Zhang, J.-H. Ye, L.-L. Liao, J. Li, D.-G. Yu*, Chem. Commun. 2018, 54, 5610.

91. S.-S. Yan, L. Zhu, J.-H. Ye, Z. Zhang, H. Huang, H. Zeng, C.-J. Li*, Y. Lan*, D.-G. Yu*, Chem. Sci. 2018, 9, 4873. (Highlighted by CBG.)

92. L. Sun, J.-H. Ye, W.-J. Zhou*, X. Zeng,D.-G. Yu*, Org. Lett. 2018, 20, 3049. (Top 8 most read papers in May, 2018. Highlighted by CBG.)

93. Z. Zhang*, C.-J. Zhu,M. Miao, J.-L. Han, T. Ju, L. Song, J.-H. Ye,J. Li, D.-G. Yu*, Chin. J. Chem. 2018, 36, 430. (Cover. Invited Contribution to the Special Issue on “CO₂ chemistry”)

94. Z.-B. Yin,^† J.-H. Ye,^† W.-J. Zhou, Y.-H. Zhang, L. Ding, Y.-Y. Gui, S.-S. Yan, J. Li, D.-G. Yu*, Org. Lett. 2018, 20, 190. (^†Equal contribution. ESI高被引论文)

95. Y.-Y. Gui, Z.-X. Wang, W.-J. Zhou*, L.-L. Liao, L. Song, Z.-B. Yin,J. Li,D.-G. Yu*, Asian J. Org. Chem. 2018, 7, 537. (Selected as Cover and VIP. Highlighted by ChemistryViews. Invited paper for the Special Issue on Early Career Researchers in China)

96. L. Zhu, J.-H. Ye, M. Duan, X. Qi, D.-G. Yu*, R. Bai*, Y. Lan*, Org. Chem. Front. 2018, 5, 633. (ESI高被引论文)

97. X. Yan, H. Sun, H. Xiang, D.-G. Yu, D. Luo, X. Zhou,* Palladium-Catalyzed C(carbonyl) –C Bond Cleavage of Amides: A Facile Access to Phenylcarbamate Derivatives with Alcohols. Chem. Commun. 2018, 54, 8606.

98. Y.-Y. Gui,^† N. Hu,^† X.-W. Chen, L.-L. Liao, T. Ju, J.-H. Ye, Z. Zhang, J. Li, D.-G. Yu*, . J. Am. Chem. Soc. 2017, 139, 17011. (^†Equal contribution. . Top 4 most read JACS papers in November, 2017. Highlighted by Synfacts 2018, 14, 0177, CJOC, X-MOL, OPR&D and Organic Chemistry Portal)

99. J.-H. Ye, M. Miao, H. Huang,S.-S. Yan, Z.-B. Yin, W.-J. Zhou, D.-G. Yu*, Angew. Chem. Int. Ed. 2017, 56, 15416. (Top 11 most accessed papers in November, 2017. Highlighted by X-MOL)

100. W.-J. Zhou, G.-M. Cao, G. Shen, X.-Y. Zhu, Y.-Y. Gui, J.-H. Ye, L. Sun, L.-L. Liao,J. Li,D.-G. Yu*, Angew. Chem. Int. Ed. 2017, 56, 15683. (Top 2 most accessed papers in November, 2017. Highlighted by X-MOL)

101. J.-H. Ye,^† L. Zhu,^† S.-S. Yan, M. Miao,X.-C. Zhang, W.-J. Zhou, J. Li, Y. Lan*, D.-G. Yu*, ACS Catal. 2017, 7, 8324. (^†Equal contribution. Top 6 most read papers in November, 2017.)

102. Y.-Y. Gui, X.-W. Chen, W.-J. Zhou*, D.-G. Yu*, Synlett 2017, 28, 2581. (Cover. Invited paper for the issue of C-O activation)

103. L.-L. Liao, Y.-Y. Gui, X.-B. Zhang, G. Shen, H.-D. Liu, W.-J. Zhou, J. Li, D.-G. Yu*, Org. Lett. 2017, 19, 3735. (Top 2 most read papers in July, 2017)

104. 周文俊*，张逸寒，曹光梅，刘惠东，余达刚*，。有机化学，2017，37, 1322。（应邀综述）

105. Y.-Y. Gui^†, W.-J. Zhou^†, J.-H. Ye, D.-G. Yu*, ChemSusChem 2017, 10, 1337. (^†Equal contribution. Highlight)

106. Z. Zhang, T. Ju, J.-H. Ye, D.-G. Yu*, Synlett 2017, DOI: 10.1055/s-0036-1588403. (Invited Synpacts paper)

107. Z. Zhang^†, T. Ju^†, M. Miao, J.-L. Han, Y.-H. Zhang, X.-Y. Zhu, J.-H. Ye, D.-G. Yu*, Y.-G. Zhi*, Org. Lett. 2017. 19, 396. (^†Equal contribution . Top 3 most read papers in January, 2017)

108. Y.-Y. Gui, L.-L. Liao, L. Sun, Z. Zhang, J.-H. Ye, G. Shen, Z.-P. Lu, W.-J. Zhou, D.-G. Yu*, Chem. Comm. 2017, 53, 1192.

109. J.-H. Ye, L. Song, W.-J. Zhou, T. Ju, Z.-B. Yin, S.-S. Yan, Z. Zhang, J. Li, D.-G. Yu*, Angew. Chem. Int. Ed. 2016, 55, 10022. (Top 4 most read ACIE papers in July, 2016)

110. Z. Zhang, L.-L. Liao, S.-S. Yan, L. Wang, Y.-Q. He, J.-H. Ye, J. Li, Y.-G. Zhi, D.-G. Yu*, Angew. Chem. Int. Ed. 2016, 55, 7068. (，Highlighted by Synfacts、X-MOL以及《有机化学》亮点介绍)

图片1.jpg

111. Y.-Y. Gui, L. Sun, Z.-P. Lu, D.-G. Yu*, Org. Chem. Front. 2016, 3, 522. (From themed collection 2015 Emerging Investigators by OCF)

112. X. Wang^†, D.-G. Yu^†, F. Glorius*, Cp*Rh(III)-Catalyzed Arylation of sp³ C−H Bonds. Angew. Chem. Int. Ed. 2015, 54, 10280. (^†Equal contribution)

113. D.-G. Yu, T. Gensch, F. de Azambuja, S. Vásquez-Céspedes, F. Glorius*, Co(III)-Catalyzed C–H Activation/Formal S_N-type Reactions: Selective and Efficient Cyanation, Halogenation, and Allylation. J. Am. Chem. Soc. 2014, 136, 17722. (Top 3 most read JACS papers in December, 2014).

114. D.-G. Yu, F. de Azambuja, T. Gensch, C. G. Daniliuc, F. Glorius*, The C–H Activation/1,3-Diyne Strategy: Highly Selective Direct Synthesis of Diverse Bisheterocycles by Rh^III-Catalysis. Angew. Chem. Int. Ed. 2014, 53, 9650. (Highlighted by Synfacts 2014, 10, 1023)

115. D.-G. Yu, F. de Azambuja, F. Glorius*, Direct Functionalization with Complete and Switchable Positional Control: Free Phenol as A Role Model. Angew. Chem. Int. Ed. 2014, 53, 7710. (Highlight)

116. D.-G. Yu, F. de Azambuja, F. Glorius*, α-MsO/TsO/Cl Ketones as Oxidized Alkyne Equivalents: Redox-Neutral Rhodium(III)-Catalyzed C–H Activation for the Synthesis of N-Heterocycles. Angew. Chem. Int. Ed. 2014, 53, 2754. (Top 6 most accessed ACIE paper in Feb. 2014, Highlighted by Synfacts 2014, 10, 567.)

117. D.-G. Yu, S. Luo, F. Zhao, Z.-J. Shi*, Homogeneous Transition-Metal-Catalzyed C–O Bond Activation. In Homogeneous Catalysis for Unreactive Bond Activation, Chapter 5, Pages 347–439, 2014 (Wiley book).

118. D.-G. Yu^†, M. Suri^†, F. Glorius*, Rh^III/Cu^II-Cocatalyzed Synthesis of 1H-Indazoles through C−H Amidation and N−N Bond Formation. J. Am. Chem. Soc. 2013, 135, 8802. (^†equal contribution, most read JACS papers in June, 2013)

119. Z.-J. Shi*, D.-G. Yu, Cross-Coupling Reactions. In Comprehensive Inorganic Chemistry II (Second Edition), Volume 6, Pages 47–77 (2013).

120. D.-G. Yu, X. Wang, R.-Y. Zhu, S. Luo, X.-B. Zhang, B.-Q. Wang, L. Wang, Z.-J. Shi*, Direct Arylation/Alkylation/Magnesiation of Benzyl Alcohols in the Presence of Grignard Reagents via Ni, Fe or Co-Catalyzed sp³ C–O Bond Activation. J. Am. Chem. Soc. 2012, 134, 14638. (Highlighted by Synfacts 2012, 8, 1358)

121. D.-G. Yu, Z.-J. Shi*, Mutual Activation: Suzuki–Miyaura Coupling through Direct Cleavage of sp² C–O Bond of Naphtholate. Angew. Chem. Int. Ed. 2011, 50, 7097. (Highlighted by Synfacts 2011, 10, 1111)

122. D.-G. Yu, B.-J. Li, S. F. Zheng, B.-T. Guan, B.-Q. Wang, Z.-J. Shi*, Direct Application of Phenolic Salts in Nickel-Catalyzed Cross-Coupling with Aryl Grignard Reagents. Angew. Chem. Int. Ed. 2010, 49, 4566. (Hot paper, the frontpieces of Communications, highlighted by ChemistryViews, Synfacts 2010, 9, 1051以及《有机化学》亮点介绍)

123. D.-G. Yu, B.-J. Li, Z.-J. Shi*, Exploration of new C–O electrophiles in cross-coupling reactions. Acc. Chem. Res. 2010, 43, 1486. (Invited account. Top ten most-accessed articles of Acc. Chem. Res. in 2010)

124. C.-L. Sun, H. Li, D.-G. Yu, M. Yu, X. Zhou, X.-Y. Lu, K. Huang, S.-F. Zheng, B.-J. Li, Z.-J. Shi*, An efficient organocatalytic method for constructing biaryls through aromatic C–H activationNature Chem. 2010, 2, 1044. (C.-L. Sun, H. Li, and D.-G. Yu performed the experiments and analysed the data and contributed equally to this work, highlighted by Nature Chem., Nature China and Synform)

125. S. Luo^†, D.-G. Yu^†, R.-Y. Zhu, X. Wang, L. Wang, Z.-J. Shi*, Fe-promoted cross coupling of homobenzylic methyl ethers with Grignard reagents via sp³ C–O bond cleavage. Chem. Comm. 2013. 49, 7794. (^†equal contribution)

126. D.-G. Yu, M. Yu, B.-T. Guan, B.-J. Li, Y. Zheng, Z.-H. Wu, Z.-J. Shi*, Carbon–Carbon Formation via Ni-Catalyzed Suzuki-Miyaura Coupling through C–CN Bond Cleavage of Aryl Nitrile. Org. Lett. 2009, 11, 3374. (Highlighted by Synfacts 2009, 11, 1255)

127. 施章杰^*， 余达刚，合成化学中的“焊接”技术。科技导报2010， 28， 29。（综述）

128. D.-G. Yu, B.-J. Li, Z.-J. Shi*, Challenges in C-C Bond Formation through Direct Transformations of sp² C–H Bonds. Tetrahedron 2012, 68, 5130. (Invited account in special issue for Tetrahedron Young Investigator Award 2012 Advances in Metal-Mediated Organic Synthesis Zhang-Jie Shi. Cover. Top 3 hottest paper in 2012)

129. Z.-C. Cao, D.-G. Yu, R.-Y. Zhu, J.-B. Wei, Z.-J. Shi*, Direct Cross Coupling of Benzyl Alcohols to Construct Diarylmethanes via Palladium Catalysis. Chem. Comm. 2015, 51, 2683.

Graphical abstract: Direct cross-coupling of benzyl alcohols to construct diarylmethanes via palladium catalysis

130. F. Zhao, D.-G. Yu, R.-Y. Zhu, Z.-F. Xi*, Z.-J. Shi*, Cross-Coupling of Aryl/Alkenyl Silyl Ether with Grignard Reagents through Nickel-Catalyzed C–O Bonds Activation. Chem. Lett. 2011, 40, 1001. (Invited research paper in Celebration for the 2010 Nobel Prize in Chemistry)

131. B.-J. Li, D.-G. Yu, C.-L. Sun, Z.-J. Shi*, Activation of “Inert” Alkenyl/Aryl C–O Bond and its Application in Cross-Coupling Reactions. Chem. Eur. J. 2011, 17, 1728. (Review)

132. K. Huang, D.-G. Yu, S.-F. Zheng, Z.-H. Wu, L. Xu, B.-Q. Wang, Z.-J. Shi*, Direct Borylation of Aryl and Vinyl Carbamates via Ni-Catalyzed C–O Activation. Chem. Eur. J. 2010, 17, 786.

133. H. Wang, B. Beiring, D.-G. Yu, K. Collins, F. Glorius, [3]Dendralene Synthesis: Rhodium(III)-Catalyzed Alkenyl C–H Activation and Coupling Reaction with Allenyl Carbinol Carbonate, Angew. Chem. Int. Ed. 2013, 52, 12430.

134. F. Zhao, Y.-F. Zhang, J. Wen, D.-G. Yu, J.-B. Wei, Z.-F. Xi*, Z.-J. Shi*, Programmed Selective sp² C–O Bond Activation toward Multiarylated Benzenes. Org. Lett. 2013, 15, 3230.

135. K. Huang, G. Li, W.-P. Huang, D.-G. Yu, Z.-J. Shi*, Arylation of α-pivaloxyl Ketones with Arylboronic Reagents via Ni-catalyzed sp³ C–O Activation. Chem. Commun. 2011, 47, 7224.

136. H. Li, C.-L. Sun, M. Yu, D.-G. Yu, B.-J. Li, Z.-J. Shi*, The Catalytic Ability of Various Transition Metals in the Direct Functionalization of Aromatic C–H Bonds. Chem. Eur. J. 2011, 17, 3593.

137. C.-L. Sun, N. Liu, B.-J. Li, D.-G. Yu, Y. Wang, Z.-J. Shi*, Pd-Catalyzed C-H Functionalizations of O-Methyl Oximes with Arylboronic Acids. Org. Lett. 2010, 12, 184.

138. B.-T. Guan, X.-Y. Lu, Y. Zheng, D.-G. Yu, T. Wu, K.-L. Li, B.-J. Li, Z.-J. Shi*, Biaryl Construction through Kumada Coupling with Diaryl Sulfates as One-by-One Electrophiles under Mild Conditions. Org. Lett. 2010, 12, 396. (Highlighted by Synfacts 2010, 4, 0455)

139. B.-T. Guan, Y. Wang, B.-J. Li, D.-G. Yu, Z.-J. Shi*, Biaryl Construction via Ni-Catalyzed C–O Activation of Aryl Carboxylates. J. Am. Chem. Soc. 2008, 130, 14468. (Highlighted by Angew. Chem. Int. Ed. 2009, 48, 3569)

【关闭】