上海科技大学人力资源管理
ShanghaiTech University Human Resources

Bo-Lin Lin    Assistant Professor

Institute

School of Physical Science and Technolgoy

Research Area

CO2 chemistry, cancer therapy, optoelectronic materials, synthetic chemistry

Contact Info.

linbl@@shanghaitech.edu.cn

  

Photo

  

  

Biography

  

  

BSc, Department   of Chemistry, University of Science and Technology of China, Advisor:   Professor Qing-Xiang Guo

PhD, Division of   Chemistry and Chemical Engineering, California Institute of Technology,   Advisor: Professor John E. Bercaw

Postdoctoral   Scholar, Department of Chemistry, Stanford University, Advisor: Professor T.   Daniel P. Stack

  

  

Research Interests

  

  

Our current main research efforts focus on four directions:

(1) CO2 chemistry: (1a) development   of new quantitative theoretical framework to guide strategic plannings for substantial abatement of CO2 emissions; and (1b)development of new thermochemical, electrochemical and photoelectrochemical technologies for chemical   utilizations of CO2 as a C1 feedstock in the production of   drugs, polymers and large-volume chemicals;

(2)Targeted   therapy using redox chemistry;

(3)New   optoelectronic materials;

(4)Methodological   development for making new organic matters.

  

  

Selected Publications

  

  

  

Independent     Publications (Selected):

1.Luyan Xu, Jialin Xu, Jingwei Zhu, Zijian Yao, Na Yu, Wei     Deng,* Yu Wang,* and Bo-Lin Lin*.     “Universal Anticancer Cu(DTC)2 Discriminates between Thiols and Zinc(II)     Thiolates Oxidatively” Angew.Chem.Int. Ed. 2019, 58,6070–6073. (News     highlightsUniversity (中文English), ChemistryWorld, 上观新闻, 高分子科学前沿iNature知社学术圈研之成理科学进展).(pdf)

http://www.shanghaitech.edu.cn/_upload/article/images/ab/89/418600db47eb9e0d4b480ab8cd3d/f9f9f8d3-fb81-4546-aa91-6fdbfaedd777.png

2.Anqi Chen, Bo-Lin Lin*. A Simple Framework for     Quantifying Electrochemical CO2 FixationJoule2018, 2, 594-606.     (News highlightsUniversity (中文English)新民晚报研之成理纳米人).(pdf)

3.Muhua Liu, Yunyan Sun, Yuanqi LiangBo-Lin Lin*. Highly     Efficient Synthesis of Functionalizable Polymers From A CO2/1,3-Butadiene-Derived     LactoneACS Macro Lett.2017, 6, 1373-1378     (News highlightsUniversity (中文English); featured in ACS Editors’     Choice, Monthly Top1 Most Read of     December 2017 and January 2018, Annual Top 3 Most-Read of 2018).(pdf)

4.Chi Fang (Co-firstAuthor),     Chunlei Lu (Co-firstAuthor), Muhua Liu, Yiling     Zhu, Yao Fu*, Bo-Lin Lin*. Selective Formylation and Methylation of Amines Using Carbon Dioxide and     Hydrosilane Catalyzed by Alkaline Metal CarbonatesACS     Catal.2016, 6, 7876-7881 (News highlightsUniversity (中文English); X-Mol; Monthly Most-Read List). (pdf)

5.Chunlei Lu, Zetian Qiu,     Yiling Zhu, Lin, Bo-Lin Lin*. “Scalable direct N-methylation of     drug-like amines using 12CO2/13CO2 by simple     inorganic base catalysis” Science Bulletin 2019, 64, 723-729. (News     highlights中国科学). (pdf)

6.Feiyi Lyu, Xiaoqi Zheng, Yingqiao Wang, Ruowen Shi, Jianli     Yang, Ziyue Li, Jiase Yu, Bo-Lin Lin*. “Bi3+ doped 2D Ruddles den-Popper     organic lead halide pervskites” Journal of Materials Chemistry A.     2019, (News highlightsUniversity (中文,English)). (pdf)

http://www.shanghaitech.edu.cn/_upload/article/images/88/df/fadc71a64301be48bac03a460aa4/70d54d9d-087f-4509-969d-dac0c35a84cb.jpg

  

Independent     Publications (Full):

1.Maojie Xuan, Chunlei Lu, Meina Liu*,     Bo-Lin Lin*. “Air-Tolerant Direct Thiol Esterification with     Carboxylic Acids Using Hydrosilane via Simple Inorganic Base Catalysis” J.     Org. Chem. 2019, 84, 7694−7701. (pdf)

Abstract Image

2.Huang, Yan, Deng, Wei, Bo-Lin Lin*.     “Air-tolerant direct reductive N-methylation of amines using formic acid     via simple inorganic base catalysis” Chinese Chemical Letters 2019. (pdf)

3.Chunlei Lu, Zetian Qiu,     Yiling Zhu, Lin, Bo-Lin Lin*. “Scalable direct N-methylation of     drug-like amines using 12CO2/13CO2 by simple     inorganic base catalysis” Science Bulletin 2019, 64, 723-729. (News     highlights国科学). (pdf)

4.Feiyi Lyu, Xiaoqi Zheng, Yingqiao Wang, Ruowen Shi, Jianli     Yang, Ziyue Li, Jiase Yu, Bo-Lin Lin*. “Bi3+ doped 2D Ruddles den-Popper     organic lead halide pervskites” Journal of Materials Chemistry A.     2019, (News highlightsUniversity (中文,English)). (pdf)

http://www.shanghaitech.edu.cn/_upload/article/images/88/df/fadc71a64301be48bac03a460aa4/70d54d9d-087f-4509-969d-dac0c35a84cb.jpg

5.Luyan Xu, Jialin Xu, Jingwei Zhu, Zijian Yao, Na Yu, Wei     Deng,* Yu Wang,* and Bo-Lin Lin*.     “Universal Anticancer Cu(DTC)2 Discriminates between Thiolsand Zinc(II)     Thiolates Oxidatively” Angew.Chem.Int. Ed. 2019, 58,6070–6073. (News     highlightsUniversity (中文English), ChemistryWorld, 上观新闻, 高分子科学前沿iNature知社学术圈研之成理科学进展).(pdf)

http://www.shanghaitech.edu.cn/_upload/article/images/ab/89/418600db47eb9e0d4b480ab8cd3d/f9f9f8d3-fb81-4546-aa91-6fdbfaedd777.png

6.Tian Qin, Yao Qian, Fan Zhang, Bo-Lin Lin*. “Cloride-derived     copper electrode for efficient electrochemical reduction of CO2     to ethylene” Chinese Chemical Letters2019, 30, 314-318.(pdf)

7.Tian Qin, Yao Qian, Fan Zhang, Anqi Chen, Bo-Lin Lin*. “Enhanced Electrochemical Reduction of CO2 to Ethylene on     Electrodeposited Copper in 0.1 M KHCO3” Int. J. Electrochem. Sci., 2018,     11,10101-10112. (News highlightsUniversity (中文,English)).(pdf)

8.Anqi Chen, Bo-Lin Lin*. A Simple Framework for     Quantifying Electrochemical CO2 FixationJoule2018, 2, 594-606.     (News highlightsUniversity (中文English)新民晚报研之成理纳米人).(pdf)

  

9.Jianli Yang, Yan Yu, Liyang Zeng, Yiting Li, Yaoqi Pang,     Fuqiang Huang,Bo-Lin     Lin*. “Effects of Aromatic Ammoniums on Methyl Ammonium Lead Iodide Hybrid     Perovskite Materials” Journal of Nanomaterials Volume 2017, Article     ID 1640965, 6 pages.(pdf)

  

10.Muhua Liu, Yunyan Sun, Yuanqi LiangBo-Lin Lin*. Highly     Efficient Synthesis of Functionalizable Polymers From A CO2/1,3-Butadiene-Derived     LactoneACS Macro Lett.2017, 6, 1373-1378     (News highlightsUniversity (中文English); featured in ACS     Editors’ Choice, Monthly Top1     Most Read of December 2017 and January 2018, Annual Top 3 Most-Read of 2018).(pdf)

11.Chi Fang (Co-firstAuthor),     Chunlei Lu (Co-firstAuthor), Muhua Liu, Yiling     Zhu, Yao Fu*, Bo-Lin Lin*. Selective Formylation     and Methylation of Amines Using Carbon Dioxide and     Hydrosilane Catalyzed by Alkaline Metal CarbonatesACS     Catal.2016, 6, 7876-7881 (News highlightsUniversity (中文English); X-Mol; Monthly Most-Read List). (pdf)

12.Muhua Liu (Co-firstAuthor),     Tian Qin (Co-firstAuthor), Qingqing Zhang (Co-firstAuthor),     Chi Fang (Co-firstAuthor), Yao Fu, Bo-Lin     Lin*. Thermal     Reductive Transformations of Carbon Dioxide Catalyzed by Small Molecules Using     Earth-Abundant Elements Sci. China Chem.2015, 58,     1524-1531 (invited review). (full text)

Pre-independent (Selected):
     1. Andrew M. Thomas (Co-first author), Bo-Lin Lin (Co-first author),     Erik C. Wasinger, T. Daniel P. Stack*. Ligand Non-innocence of     Thiolate/Disulfide in Dinuclear Copper Complexes: Solvent-Dependent Redox     Isomerization and Proton-Coupled Electron Transfer J. Am. Chem. Soc., 2013, 135, 18912-18919.


     2. Bo-Lin Lin, Peng Kang, T. Daniel P. Stack*. “Unexpected     Ccarbene-X (X: I, Br, Cl) Reductive Elimination from N-Heterocyclic Carbene     Copper Halide Complexes Under Oxidative Conditions” Organometallics, 2010,     29, 3683-3685.


     3. Bo-Lin Lin, Koyel X. Bhattacharyya, Jay A. Labinger*, John E.     Bercaw*. “Competitive Benzene C-H Bond Activation versus Olefin Insertion     in a (Monomethyl)palladium(II) β-Diketiminate Complex” Organometallics, 2009,     28, 4440-4405.


     4. John E. Bercaw*, George S. Chen, Jay A. Labinger*, Bo-Lin Lin (Co-first     author
alphabetically ordered) “Hydrogen     Tunneling in Protonolysis of Platinum(II) and Palladium(II) Methyl     Complexes: Mechanistic Implications”     J. Am. Chem. Soc., 2008, 130, 17654-17655. 


     5. Bo-Lin Lin, Lei Liu*, Yao Fu, Shi-Wei Luo, Qian Chen, Qing-Xiang     Guo*. “Comparing Nickel- and Palladium-Catalyzed Heck Reactions” Organometallics, 2004, 23, 2114-2123. (4th most-accessed article in Organometallics,     2004.)