刘红

发布时间:  2016/07/01  王瑶   浏览次数:   返回

职称:副教授(硕士生导师)
系所:化学工程与工艺系

办公室:校本部东区环化楼503
电话:021-66137487
Email
liuhong@shu.edu.cn

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分别于1990.71993.6获华东理工大学有机化工专业工学学士学位和工学硕士学位。2005.3获华东理工大学工业催化专业工学博士学位,博士论文荣获上海市优秀博士学位论文1993.7-1999.3任教于上海师范大学化学系。1999.4起在上海大学化学工程与工艺系工作。迄今,以第一或通讯作者在国内外学术期刊发表论文61篇,其中SCI论文46篇,被SCI收录引用2000余次,2篇论文入选ESI高被引论文。获10项中国发明专利授权。主编教材1部,参编教材4部。获上海市科技进步三等奖1项。作为项目负责人主持上海市自然科学基金2项、上海市教委项目3项和横向课题2项,参加国家自然科学基金项目5项、上海市科委项目3项。担任Chemical Society ReviewsJournal of the American Chemical SocietyACS Catalysis48种国际学术期刊审稿人。

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1993.07-1996. 02 上海师范大学,化学系,助教

1996.03-1999. 03 上海师范大学,化学系,讲师

1999.04-2003.04 上海大学,化学工程与工艺系,讲师

2003.05- 上海大学,化学工程与工艺系,副教授

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1、 光催化,包括:光催化降解有机污染物、光催化水解制氢、光催化CO2还原等

2、 多相催化,包括:烃类/酚类的选择性催化氧化、甲醇水蒸气重整制氢等

3、 能源环境材料

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1. L. Cheng, Q. Chen, J. Li, H. Liu*. Boosting the photocatalytic activity of CdLa2S4 for hydrogen production using Ti3C2 MXene as a co-catalyst. Applied Catalysis B: Environmental, 2020, 267, 118379.

2. Q. Chen, J. Li, L. Cheng, H. Liu*. Construction of CdLa2S4/MIL-88A(Fe) heterojunctions for enhanced photocatalytic H2-evolution activity via a direct Z-scheme electron transfer. Chemical Engineering Journal, 2020, 379, 122389.

3. J. C. Meng, Q. Chen, J. Q. Lu, H. Liu*. Z-scheme photocatalytic CO2 reduction on a heterostructure of oxygen-defective ZnO/reduced graphene oxide/UiO-66-NH2 under visible light. ACS Applied Materials & Interfaces, 2019, 11, 550-562.

4. Q. Chen, J. Zhang, J. Q. Lu, H. Liu*. Noble metal-free NiSe2 nanosheets decorated MIL-53(Fe) microrods with highly efficient visible-light driven photocatalytic H2 generation. International Journal of Hydrogen Energy, 2019, 44, 16400-16410.

5. H. Liu*, J. Zhang, D. Ao. Construction of heterostructured ZnIn2S4@NH2-MIL-125(Ti) nanocomposites for visible-light-driven H2 production. Applied Catalysis B: Environmental, 2018, 221, 433-442. (High-cited)

6. Y. Su, D. Ao, H. Liu*, Y. Wang*. MOF-derived yolk-shell CdS microcubes with enhanced visible-light photocatalytic activity and stability for hydrogen evolution. Journal of Materials Chemistry A, 2017, 5, 8680-8689.

7. Y. Su, Z. Zhang, H. Liu*, Y. Wang*. Cd0.2Zn0.8S@UiO-66-NH2 nanocomposites as efficient and stable visible-light-driven photocatalyst for H2 evolution and CO2 reduction. Applied Catalysis B: Environmental, 2017, 200, 448-457. (High-cited)

8. H. Liu*, J. C. Meng, J. Zhang. Self-assembled three-dimensional flowerlike Mn0.8Cd0.2S microspheres as efficient visible-light-driven photocatalysts for H2 evolution and CO2 reduction. Catalysis Science & Technology, 2017, 7, 3802-3811.

9. H. Liu*, Z. Zhang, J. C. Meng, J. Zhang. Novel visible-light-driven CdIn2S4/mesoporous g-C3N4 hybrids for efficient photocatalytic reduction of CO2 to methanol. Journal of Molecular Catalysis A: Chemical, 2017, 430, 9-19.

10. H. Liu*, Z. Z. Xu, Z. Zhang, D. Ao. Highly efficient photocatalytic H2 evolution from water over CdLa2S4/mesoporous g-C3N4 hybrids under visible light irradiation. Applied Catalysis B: Environmental, 2016, 192, 234-241.

11. H. Liu*, Z. Z. Xu, Z. Zhang, D. Ao. Novel visible-light driven Mn0.8Cd0.2S/g-C3N4 composites: Preparation and efficient photocatalytic hydrogen production from water without noble metals. Applied Catalysis A: General, 2016, 518, 150-157.

12. H. Liu*, Y. Su, Z. Chen, Z. T. Jin, Y. Wang. Graphene sheets grafted 3D BiOBr0.2I0.8 microspheres with excellent photocatalytic activity under visible light. Journal of Hazardous Materials, 2014, 266, 75-83.

13. S. F. Kong, Z. T. Jin, H. Liu*, Y. Wang*. Morphological effect of graphene nanosheets on ultrathin CoS nanosheets and their applications for high-performance Li-ion batteries and photocatalysis. The Journal of Physical Chemistry C, 2014, 118, 25355-25364.

14. P. Chen, Y. Su, H. Liu*, Y. Wang*. Interconnected tin disulfide nanosheets grown on graphene for Li-ion storage and photocatalytic applications. ACS Applied Materials & Interfaces, 2013, 5, 12073-12082.

15. H. Liu*, W. R. Cao, Y. Su, Z. Chen, Y. Wang. Bismuth oxyiodide-graphene nanocomposites with high visible-light photocatalytic activity. Journal of Colloid and Interface Science, 2013, 398, 161-167.

16. H. Liu*, W. R. Cao, Y. Su, Y. Wang, X. H. Wang. Synthesis, characterization and photocatalytic performance of novel visible-light-induced Ag/BiOI. Applied Catalysis B: Environmental, 2012, 111-112, 271-279.

17. H. Liu, G. Z. Lu*, Y. L. Guo, Y. Guo, J. S. Wang. Chemical kinetics of phenol hydroxylation catalyzed by TS-1/diatomite in fixed-bed reactor. Chemical Engineering Journal, 2006, 116, 179-186.

18. H. Liu, G. Z. Lu*, Y. L. Guo, Y. Guo, J. S. Wang. Synthesis of framework-substituted Fe-HMS and its catalytic performance for phenol hydroxylation. Nanotechnology, 2006, 17, 997-1003.

19. H. Liu, G. Z. Lu*, Y. L. Guo, Y. Guo. Synthesis of TS-1 using amorphous SiO2 and its catalytic properties for hydroxylation of phenol in fixed-bed reactor. Applied Catalysis A: General, 2005, 293, 153-161.

20. H. Liu, G. Z. Lu*, Y. L. Guo, Y. Guo, J. S. Wang. Deactivation and regeneration of TS-1/diatomite catalyst for hydroxylation of phenol in fixed-bed reactor. Chemical Engineering Journal, 2005, 108, 187-192.

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上海市自然科学基金2

上海市教委项目3

横向项目2

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上海市优秀博士学位论文 (2006)

上海市科技进步三等奖 (2005)

中国石油和化学工业优秀教材奖二等奖 (化工分离工程)

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本科生课程

化工原理、化工分离工程、催化原理、计算机化工应用

研究生课程

绿色化工与技术、化工技术、高等分离工程



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