General

Research Areas

Green Chemistry; Energy and Enviroment

Education

2006/09-2010/06: Zhejiang University of Technology

2010/09-2015/06: East China University of Technology


Experience

   
Work Experience
2015/08 - till now: Shanghai Advanced Research Institute, CAS
Teaching Experience

Publications

   
Papers

1. Zhong, L.; Yu, F.; An, Y.; Zhao, Y.; Sun, Y.; Li, Z.; Lin, T.; Lin, Y.; Qi, X.; Dai, Y.; Gu, L.; Hu, J.; Jin, S.; Shen, Q.; Wang, H., Cobalt carbide nanoprisms for direct production of lower olefins from syngas. Nature 2016, 538 (7623), 84-87.

2. An, Y.; Lin, T.; Yu, F.; Yang, Y.; Zhong, L.; Wu, M.; Sun, Y., Advances in direct production of value-added chemicals via syngas conversion. Sci. China Chem. 2017, 60 (7), 887-903.

3. Dai, Y.; Yu, F.; Li, Z.; An, Y.; Lin, T.; Yang, Y.; Zhong, L.; Wang, H.; Sun, Y., Effect of sodium on the structure-performance relationship of Co/SiO2 for Fischer-Tropsch synthesis. Chin. J. Chem. 2017, 35 (6), 918-926.

4. Li, Z.; Lin, T.; Yu, F.; An, Y.; Dai, Y.; Li, S.; Zhong, L.; Wang, H.; Gao, P.; Sun, Y.; He, M., Mechanism of the Mn promoter via CoMn spinel for morphology control: formation of Co2C nanoprisms for Fischer-Tropsch to olefins reaction. ACS Catal. 2017, 7 (12), 8023-8032.

5. Li, Z.; Zhong, L.; Yu, F.; An, Y.; Dai, Y.; Yang, Y.; Lin, T.; Li, S.; Wang, H.; Gao, P.; Sun, Y.; He, M., Effects of sodium on the catalytic performance of CoMn catalysts for Fischer-Tropsch to olefin reactions. ACS Catal. 2017, 7 (5), 3622-3631.

6. Chen, W.; Lin, T.; Dai, Y.; An, Y.; Yu, F.; Zhong, L.; Li, S.; Sun, Y., Recent advances in the investigation of nanoeffects of Fischer-Tropsch catalysts. Catal. Today 2018, 311, 8-22.

7.Yang, Y.; Lin, T.; Qi, X.; Yu, F.; An, Y.; Li, Z.; Dai, Y.; Zhong, L.; Wang, H.; Sun, Y., Direct synthesis of long-chain alcohols from syngas over CoMn catalysts. Appl. Catal. A: Gen 2018, 549, 179-187.

8. Yu, F.; Lin, T.; Wang, X.; Li, S.; Lu, Y.; Wang, H.; Zhong, L.; Sun, Y., Highly selective production of olefins from syngas with modified ASF distribution model. Appl. Catal. A: Gen 2018, 563, 146-153.

9.Wang, X.; Chen, W.; Lin, T.; Li, J.; Yu, F.; An, Y.; Dai, Y.; Wang, H.; Zhong, L.; Sun, Y., Effect of the support on cobalt carbide catalysts for sustainable production of olefins from syngas. Chinese J. Catal. 2018, 39 (12), 1869-1880.

10. An, Y.; Lin, T.; Yu, F.; Wang, X.; Lu, Y.; Zhong, L.; Wang, H.; Sun, Y., Effect of Reaction Pressures on Structure-Performance of Co2C-Based Catalyst for Syngas Conversion. Ind. Eng. Chem. Res 2018, 57 (46), 15647-15653.

11. An, Y.; Zhao, Y.; Yu, F.; Lin, T.; Lu, Y.; Li, S.; Li, Z.; Dai, Y.; Wang, X.; Wang, H.; Zhong, L.; Sun, Y., Morphology control of Co2C nanostructures via the reduction process for direct production of lower olefins from syngas. J. Catal. 2018, 366, 289-299.

12. Yang, M.; Zhang, C.; Fan, Y.; Lin, T.; Chen, X.; Lu, Y.; Wang, H.; Zhong, L.; Sun, Y., ZIF-67-derived Co3O4 micro/nano composite structures for efficient photocatalytic degradation. Mater. Lett. 2018, 222, 92-95.

13. Dai, Y.; Zhao, Y.; Lin, T.; Li, S.; Yu, F.; An, Y.; Wang, X.; Xiao, K.; Sun, F.; Jiang, Z.; Lu, Y.; Wang, H.; Zhong, L.; Sun, Y., Particle size effects of cobalt carbide for Fischer–Tropsch to olefins. ACS Catal. 2019, 9, 798-809.

14.Lin, T.; Qi, X.; Wang, X.; Xia, L.; Wang, C.; Yu, F.; Wang, H.; Li, S.; Zhong, L.; Sun, Y., Direct Production of Higher Oxygenates by Syngas Conversion over a Multifunctional Catalyst. Angew. Chem. Int. Ed. 2019, 58 (14), 4627-4631.

15. Lin, T.; Gong, K.; Wang, C.; An, Y.; Wang, X.; Qi, X.; Li, S.; Lu, Y.; Zhong, L.; Sun, Y., Fischer–Tropsch synthesis to olefins: catalytic performance and structure evolution of Co2C-based catalysts under a CO2 environment. ACS Catal. 2019, 9 (10), 9554-9567.

16. Wang, X.; Lin, T.; Li, J.; Yu, F.; Lv, D.; Qi, X.; Wang, H.; Zhong, L.; Sun, Y., Direct production of olefins via syngas conversion over Co2C-based catalyst in slurry bed reactor. RSC Advances 2019, 9 (8), 4131-4139.

17. An, Y.; Lin, T.; Gong, K.; Wang, X.; Zhong, L.; Wang, H.; Sun, Y., Tuning the facet proportion of Co2C nanoprisms for Fischer-Tropsch synthesis to olefins. ChemCatChem 2020, 12 (6), 1630-1638.

18. Gong, K.; Lin, T.; An, Y.; Wang, X.; Yu, F.; Wu, B.; Li, X.; Li, S.; Lu, Y.; Zhong, L.; Sun, Y., Fischer-Tropsch to olefins over CoMn-based catalysts: effect of preparation methods. Appl Catal A, Gen 2020, 592, 117414.

19. Li, L.; Lin, T.; Li, X.; Wang, C.; Qin, T.; An, Y.; Lu, Y.; Zhong, L.; Sun, Y., Control of Co0/Co2C dual active sites for higher alcohols synthesis from syngas. Appl. Catal. A: Gen 2020, 602, 117704.

20. Sun, T.; Lin, T.; An, Y.; Gong, K.; Zhong, L.; Sun, Y., Syngas Conversion to Aromatics over the Co2C-Based Catalyst and HZSM-5 via a Tandem System. Ind. Eng. Chem. Res. 2020, 59 (10), 4419-4427.

21. Wu, B.; Yang, R.; Shi, L.; Lin, T.; Yu, X.; Huang, M.; Gong, K.; Sun, F.; Jiang, Z.; Li, S.; Zhong, L.; Sun, Y., Cu single-atoms embedded in porous carbon nitride for selective oxidation of methane to oxygenates. Chem. Commun. 2020, 56 (93), 14677-14680.

22. Qin, T.#Lin, T. #; Qi, X.; Wang, C.; Li, L.; Tang, Z.; Zhong, L.; Sun, Y., Tuning chemical environment and synergistic relay reaction to promote higher alcohols synthesis via syngas conversion. Appl. Catal. B: Environ. 2021, 285, 119840.共同一作)

23. Li, X.; Qin, T.; Li, L.; Wu, B.; Lin, T.; Zhong, L., One-pot Synthesis of Acetals by Tandem Hydroformylation-acetalization of Olefins Using Heterogeneous Supported Catalysts. Catal. Lett. 2021.

24.Wang, C.; Lin, T.; Qi, X.; Yu, F.; Lu, Y.; Zhong, L.; Sun, Y., Direct Conversion of Syngas to Higher Alcohols over Multifunctional Catalyst: The Role of Copper-Based Component and Catalytic Mechanism. Journal of Physical Chemistry C 2021, 125 (11), 6137-6146.

25. Lin, T.; Yu, F.; An, Y.; Qin, T.; Li, L.; Gong, K.; Zhong, L.; Sun, Y., Cobalt Carbide Nanocatalysts for Efficient Syngas Conversion to Value-Added Chemicals with High Selectivity. Acc. Chem. Res. 2021, 54 (8), 1961-1971.

26. Bo Wu#Tiejun Lin#; Ruoou Yang#; Min Huang; Huan Zhang; Ji Li; Fanfei Sun; Fei Song; Zheng Jiang, ; Liangshu Zhong *; Yuhan Sun*,Ru single atoms for efficient chemoselective hydrogenation of nitrobenzene to azoxybenzene, Green Chem. 2021, https://doi.org/10.1039/D1GC01439K

27. Lin, T. J.; Xuan, M.; Shi, L., Evaluation of Laboratory Methods for the Acquisition of Catalyst from Fischer-Tropsch Wax/Catalyst Mixtures. Ind. Eng. Chem. Res. 2012, 51 (44), 14511-14516.

28. Lin, T. J.; Meng, X.; Shi, L., Attrition Studies of an Iron Fischer-Tropsch Catalyst Used in a Pilot-Scale Stirred Tank Slurry Reactor. Ind. Eng. Chem. Res. 2012, 51 (40), 13123-13131.

29. Lin, T. J.; Meng, X.; Shi, L., Activity and Sediments Study for the Hydrocarboxylation of Acetylene with Carbon Monoxide to Acrylic Acid on Ni-Cu Homogeneous Catalyst. Ind. Eng. Chem. Res. 2013, 52 (39), 14125-14132.

30. Lin, T. J.; Meng, X.; Shi, L., Ni-exchanged Y-zeolite. An efficient heterogeneous catalyst for acetylene hydrocarboxylation. Appl. Catal. A-Gen.  2014, 485, 163-171.

31. Lin, T. J.; Xie, H.; Meng, X.; Shi, L., Characterization and catalytic application of Bi2O3/NiO composite oxides in the Reppe carbonylation to acrylic acid.Catal. Commun. 2015, 68, 88-92.

32. Lin, T. J.; Meng, X.; Shi, L., Catalytic hydrocarboxylation of acetylene to acrylic acid using Ni2O3 and cupric bromide as combined catalysts. J. Mole. Catal. A-Chem. 2015, 396, 77-83

Patents

(1) 孙予罕,钟良枢,林铁军,齐行振,王慧,夏林,吴秀章,卢卫民,李克健,李晋平,刘斌,孙志强,一种用于合成气制备高碳醇的混合氧化物催化剂,申请号:201610094432.2申请日:2016/2/19

(2) 孙予罕,林铁军,钟良枢,于飞,齐行振,卢卫民,李克健,李晋平,肖亚宁,刘斌,一种用于合成气一步法联产混合醇和α-烯烃的碳化钴催化剂的制备方法和应用,申请号:201610554223.1申请日:2016/7/14

(3) 代元元;钟良枢;孙予罕; 林铁军;于飞;安芸蕾;李正甲;杨彦章;王慧, 基于Co2C制备石墨化空心纳米结构的方法,申请号:201610858474.9,申请日:2016/09/27

(4) 孙予罕;钟良枢;王新星; 林铁军;于飞;吕东;齐行振;李正甲;安芸蕾;李晋平;肖亚宁;刘斌, 钴催化剂及其制备方法与应用, 申请号:201610858499.9 申请日:20160927

5)李正甲;钟良枢;孙予罕;于飞;安芸蕾;齐行振; 林铁军;肖亚宁;刘斌;王东飞,一种用于合成气直接制备烯烃的碳化钴基催化剂及其制备方法和应用,申请号:201610210920.5,申请日:20160406

6)代元元;钟良枢;孙予罕;李正甲;安芸蕾;于飞; 林铁军;杨彦章;王慧,碳包贵金属纳米催化剂的制备方法,申请号:201610855734.7,申请日:20160927

7)孙予罕;钟良枢;吕东;王新星;齐行振; 林铁军,一种合成气制烯烃的铁基催化剂及其制备方法和用途,申请号:201710546690.4,申请日:20170706

8)孙予罕;钟良枢;王新星; 林铁军;于飞;李正甲;安芸蕾;代元元;吕东;齐行振,一种合成气直接转化为烯烃的催化剂及其制备方法和应用,申请号:201710547865.3,申请日:20170706

9)孙予罕,钟良枢,林铁军,王慧,齐行振,王新星,吕东,一种用于合成气制备混合醇的催化剂及其制备方法和应用,申请号:201710613265.2 申请日:20170725

10)孙予罕,钟良枢,林铁军,王慧,齐行振,杨彦章,代元元,一种用于合成气一步法制取混合醇的钴基催化剂及其制备和应用,申请号:201710546688.7 申请日:2017-07-06

11)钟良枢;孙予罕;吕东;王新星; 林铁军;齐行振,一种用于浆态床合成气直接制烯烃的含钴催化剂的原位还原活化方法及直接制烯烃的方法,CN201811550279.5,申请日:20181218

12钟良枢,孙予罕,林铁军,齐行振,一种用于合成气催化转化的催化剂及其制备方法和应用,申请号:201811550298.8,申请日:2018-12-18

13)钟良枢;孙予罕;代元元; 林铁军;齐行振;于飞;安芸蕾;杨彦章,催化剂及其制备方法和用途,CN201810723798.0,申请日:20180704

14)秦婷婷;钟良枢;孙予罕;齐行振; 林铁军,一种用于合成气转化直接制备混合醇的Ru基催化剂及其制备方法和应用,CN201910661141.0,申请日:20190722

15)钟良枢;齐行振; 林铁军;王新星;吕东;孙予罕,一种用于合成气一步法直接合成醇醛类含氧产物的催化剂及应用,CN202010274283.4,申请日:20200409

16)钟良枢; 林铁军;孙涛;孙予罕,一种合成气制取芳烃的催化剂及其应用,CN202010277687.9,申请日:20200408


Research Interests

C1 Chemistry and Enginerring; 

CO2 conversion and utilization;

Syngas Chemistry;

Hydroformylation;

Activation of lower alkanes (i.e., CH4, C2H6, C3H8)