赵晨

• 理学学士：南开大学（2000 - 2004），材料化学系

• 理学博士：北京大学（2004 - 2009），化学与分子工程学院/物理化学专业

• 博士交换生：德国慕尼黑工业大学（2007 - 2008），化学工程系

• 博士后：德国慕尼黑工业大学（2009 - 2010），化学工程系

• 高级科学家 & 项目负责人：德国慕尼黑工业大学（2010 - 2013），化学工程系

• 教授 & 博导：华东师范大学（2013 - 现在），化学系 & 上海市绿色化学与化工过程绿色化重点实验室

赵晨简历：女，1982年生，华东师范大学教授（2013-至今）。2009年于北京大学获得物理化学专业博士学位，后赴德国慕尼黑工业大学化学工程系从事博士后研究及担任项目负责人(2009-2013)。致力于设计新反应路径和新催化剂转化甲烷和二氧化碳等小分子及纤维素、木质素和油脂等大分子，并揭示催化剂构效关系和反应机理。在木质素制备高速飞行器燃料和乙苯（与济南圣泉基团正开展工业示范），纤维素一步法制备乙醇/乙二醇/丙二醇，油脂制备全合成润滑油，煤制油尾气/焦炉煤气/富含甲烷的天然气重整制备合成气（于伊泰煤制油工厂和国家能源集团完成工业侧线）等取得系列成果。先后主持国家重点研发项目子课题、中石化企业合作项目、济南圣泉基团企业合作项目、国家面上项目等多项国家科研项目。近五年发表Angew. Chem. Int. Ed.和JACS 等国际著名期刊论文60余篇，他引4000余次，H index: 32；申请专利33项（授权11项）。在世界催化年会、中国催化年会、中国分子筛年会、美国ACS会议、香山会议等国际国内邀请报告30余次。先后获世界催化年会青年科学家奖，中石化-中石油-闵恩泽能源化工奖青年进步奖等奖励，入选ACS Catalysis Early Career Advisory Board等。

2019年入选《物理化学学报》青年编委

2017年入选ACS Catalysis Early Career Advisory Board (ECAB)

2016入选中国化学会绿色化学学会委员，中国化学会女性工作者学会委员

• 生物质（木质素，秸秆，褐煤，和油脂）高效催化转化为烃类液态燃料和高价值化学品的过程研究及产业化运用

  C1化学含甲烷和二氧化碳的转化

• 新型催化剂的合成，催化剂的静态和原位（Ex and in situ）光谱学和电子学表征，催化动力学及机理研究，界面反应及催化剂表面吸附扩散过程的探测

• 以水和烃类为溶剂，以酸或金属中心催化的模型反应（氢化、脱水、C-C偶联、脱羧、脱氢和氢解）的基础研究

研究生选修课程：催化化学原理（2015-2018）

本科生选修课程：催化化学原理（2015-2018）

本科生（菁英班）必修课程：物理化学（II）（2019-）

Year 2020

71. Arif Ali, Chen Zhao*, Catalysis Science & Technology, “Selective synthesis of α-olefins by dehydration of fatty alcohols over alumina–thoria mixed catalysts”, 2020, DOI: 10.1039/D0CY00551G.

70. Shufang Qin, Zhicheng Luo*, Chen Zhao*, Green Chemistry, Conversion of high concentration of lignin to cyclic alkanes by introducing Pt/HAP into Ni/ASA catalyst, 2020, 2020, doi: 10.1039/D0GC00243G. 

69. Zhicheng Luo, Shufang Qin, Shuang Chen, Yingshuang Hui, Chen Zhao*,Green Chemistry, Selective conversion of lignin to ethylbenzene, 2020, doi: 10.1039/C9GC04246F. (Front Cover Paper)

68. Arif Ali, Chen Zhao*, Chinese Journal of Catalysis, “Ru nanoparticles supported on hydrophilic mesoporous carbon catalyzed low-temperature hydrodeoxygenation of microalgae oil to alkanes at aqueous-phase”, 2020, 41, 1174-1185. (Front Cover Paper)

67. Zhicheng Luo, Jiechen Kong, Bing Ma, Zichun Wang, Jun Huang, Chen Zhao*, ACS Sustainable Chemistry & Engineering, “Liquefaction and hydrodeoxygenation of polymeric lignin using a hierarchical Ni micro-reactor catalyst”, 2020, 8, 2158-2166. (Front Cover Paper)

Year 2019

66. Qiang Zhang, Alvaro Mayoral, Osamu Terasaki, Qing Zhang, Bing Ma, Chen Zhao, Guoju Yang, Jihong Yu, Journal of the American Chemical Society, “Amino Acid-Assisted Construction of Single-Crystalline Hierarchical Nanozeolites via Oriented-Aggregation and Intraparticle Ripening”, 2019, 141, 9, 3772-3776.

65. Arif Ali, Chen Zhao*, Chinese Journal of Catalysis,“Direct liquefaction techniques on lignite coal: A review”, 2020, 41, 375-389.

64. Jingqing Tian, Haocheng Li, Xin Zeng, Zichun Wang, Jun Huang,* Chen Zhao,* Chinese Journal of Catalysis,“Facile immobilization of Ni nanoparticles into mesoporous MCM-41 channels for efficient methane dry reforming”,2019, 40, 1395-1404.

63. Arif Ali, Bolong Li, Yijian Lu, Chen Zhao*, Green Chemistry, “Highly selective and low-temperature hydrothermal conversion of natural oils to fatty alcohols”, 2019, 21, 3059-3064.

Year 2018

62. Jingqing Tian, Bing Ma, Saiyu Bu, Qinghong Yuan*, Chen Zhao*, Chemical Communications, “One-pot synthesis of highly sintering- and coking-resistant Ni nanoparticles encapsulated in dendritic mesoporous SiO₂ for methane dry reforming”, 2018, 54, 13993-13996.

61. Dawang Chu, Chen Zhao*, Catalysis Today, Reduced Oxygen-Deficient CuWO₄ with Ni Catalyzed Selective Hydrogenolysis of Cellulose to Ethylene Glycol, 2018, 10.1016/j.cattod.2018.10.006.

60. Yijian Lu, Bing Ma, Chen Zhao*, Chemical Communications, Integrated Production of Bio-Jet Fuel Containing Lignin-derived Arenes via Lipd Deoxygenation, 2018, 54, 9829-9832. 

59. Bolong Li, Lulu Li, Hao Sun, Chen Zhao*, ACS Sustainable Chemistry & Engineering,Selectie Deoxygenation of Aqueous Furfural to 2-Methylfuran over Cu⁰/Cu₂O-SiO₂ Sites via a Copper Phyllosilicate Precursor without Extraneous Gas, 2018, 6, 12096-12103.

58. Zhicheng Luo, Qiming Bing, Jiechen Kong, Jing-yao Liu*, Chen Zhao*, Catal. Sci. Technol., “Mechanism of supported Ru3Sn7 nanoclustercatalyzed selective hydrogenation of coconut oil to fatty alcohols”, 2018, 8, 1322–1332.

57. Liubi Wu,Bolong Li, Chen Zhao*, ChemCatChem, “Direct Synthesis of Hydrogen and Dimethoxylmethane from Methanol on Cu/SiO₂ Catalysts with Optimal Cu⁺/Cu⁰ Sites”, 2018, 10, 1140-1147.

56. Zhaoxia Zheng, Zhicheng Luo, Chen Zhao*, ChemCatChem, “Morphologically Cross-shaped Ru/HZSM-5 Catalyzed Tandem Hydrogenolysis of Guaiacol to Benzene in Water”, 2018, 10, 1376 –1384.

Year 2017

55. Zhicheng Luo, Zhaoxia Zheng, Lei Li, Yi-Tao Cui, Chen Zhao*, ACS Catal. “Bimetallic Ru–Ni Catalyzed Aqueous-Phase Guaiacol Hydrogenolysis at Low H₂ Pressures”, 2017, 7, 8304-8313.

54. Bolong Li, Lulu Li, Chen Zhao*, Green Chemistry, Highly Stable Ru/LaCO3OH Catalyst Consisting of Support-coated Ru Nanoparticles in Aqueous-Phase Hydrogenolysis Reactions, 2017, 19, 5412 - 5421.

53. Bing Ma, Huimei Cui, Chen Zhao*, Chemical Communications, A Nickel-Phyllosilicate Core-Echinus Catalyst via Green and Base Additive Free Hydrothermal Approach for Hydrogenation Reactions,2017, 53, 10358-10361.

52. Liubi Wu, Lulu Li, Bolong Li, Chen Zhao*, Chemical Communications,Selective Conversion of Coconut Oil to Fatty Alcohols in Methanol over Hydrothermally Prepared Cu/SiO2 Catalyst without Extraneous Hydrogen, 2017, 53, 6152-6155.

51. Bing Ma, Huimei Cui, Darui Wang, Peng Wu*, Chen Zhao*, Nanoscale,Controllable Hydrothermal Synthesis of Ni/H-BEA with Hierarchical Core–Shell Structure and Highly Enhanced Biomass Hydrodeoxygenation, 2017, 9, 5986-5995.

50. Sebastian Foraita, Yue Liu, Gary L. Haller, Eszter Barath, Chen Zhao, Johannes Lercher*, ChemCatChem,“Controlling Hydrodeoxygenation of Stearic Acid to n-Heptadecaneand n-Octadecane by Adjusting the Chemical Properties of Ni/SiO2-ZrO2 Catalyst”, 2017, 9, 195-203.

Year 2016

49. B. Ma, X. Yi, L.Chen, A. Zheng*, C. Zhao*, J. Mater. Chem. A,  Interconnected Hierarchical HUSY Zeolite-Loaded Ni Nano-particles Probed for Hydrodeoxygenation of Fatty Acids, Fatty Esters, and Palm Oil, 2016, 4, 11330-11341.

48. Zhicheng Luo, Zhaoxia Zheng, Yuechao Wang, Geng Sun, Hong Jiang*, Chen Zhao*,Green Chemistry, Hydrothermally stable Ru/HZSM-5 catalyzed selective hydrogenolysis of lignin-derived substituted phenols to bio-arenes in water, 2016, 18, 5845-5858.

47. Jingjing Zhang, Chen Zhao*, ACS Catalysis, Development of a bimetallic Pd-Ni/HZSM-5 catalyst for the tandem dehydrogeantion and fatty acid deoxygenation to alkanes and arenes for use as bio-jet fuel, 2016, 6, 4512-4525.

46. Zhicheng Luo, Yimeng Wang, Mingyuan He, Chen Zhao*, Green Chemistry, Precise oxygen scission of lignin derived aryl ethers to quantitatively produce aromatic hydrocarbons in water, 2016, 18, 433-441.

45. Jiechen Kong, Bolong Li, Chen Zhao*,RSC Advances, Tuning Optimal Ni Nanoparticles and Acid Sites onto Silica Alumina for Liquefaction and Hydrodeoxygenation of Lignin to Cyclic Alkanes, 2016, 6, 71940-91951.

44. Zhicheng Luo, Chen Zhao*, Catalysis Science Technology, Mechanistic insights into selective hydrodeoxygenation of lignin derived β-O-4 linkage to aromatic hydrocarbons in water, 2016, 6, 3476-3484.

43. Huimei Cui, Jingjing Zhang, Zhicheng Luo, Chen Zhao*, RSC Advances, Mechanisms into dehydroaromatization of bio-derived limonene to p-cymene over Pd/HZSM-5 in presence and absence of H2, 2016, 6, 66695-66704.

42. Wenji Song, Yuanshuai Liu, Eszter Barath, Lucy L. Wang, Chen Zhao, Donghai Mei, Johannes A. Lercher, ACS Catalysis,Dehydration of 1-octadecanol over H-BEA: A combined experimental and computational study, 2016, 6, 878-889.

Year 2015

41. Jingjing Zhang, Chen Zhao*, Chemical Communications, A new approach for bio-jet fuel generation from palm oil and limonene in the absence of hydrogen , 2015, 51, 17249-17252.

40. Jiechen Kong, Mingyuan He, Johannes A. Lercher*, Chen Zhao*, Chemical Communications, Direct production of naphthenes and paraffins from lignin, 2015, 51, 17580-17583.

39. Darui  Wang, Bing Ma, Bo Wang, Chen Zhao*, Peng Wu*, Chemical Communications, One-pot synthesized hierarchical zeolites supported metal nanoparticles for highly efficient biomass conversion, 2015, 51, 15102-15105.

38. Bing Ma, Jiangbo Hu, Yimeng Wang, Chen Zhao*, Green Chemistry, Ni nanoparticles encapsulated into mesoporous single-crystalline HBEA: application for drainage oil hydrodeoxygenation to diesel“, 2015, 17, 4610-4617.

37. Bing Ma, Chen Zhao*, Green Chemistry, High-grade diesel production by hydrodeoxygenation of palm oil over a hierarchically structured Ni/HBEA catalyst“, 2015, 17,1692-1701.[Front Cover Paper] 

36.  Wenji Song, Yuanshuai Liu, Eszter Baráth, Chen Zhao,* Johannes A. Lercher*, Green Chemistry, “Synergy effect of  Ni and acid sites for C-O bond cleavage of phenol, catechol, and guaiacol”, 2015,17, 1204-1218.

35.  Zizwe A. Chase, Stanislav Kasakov, Hui Shi, Aleksei Vjunov, John L. Fulton,* Donald M. Camaioni,* Mahalingam Blasubramanian, Chen Zhao, Yong Wang, Johannes A. Lercher,* Chemistry: A European Journal, State of supported nickel nanoparticles during catalysis in aqueous meida,2015, 21, 16541-16546.

34. Stanislav Kasakov, Hui Shi, Donald Camaioni, Chen Zhao, Eszter Barath, Andreas Jentys, Johannes A. Lercher,* Green Chemistry,Reductive deconstruction of organosolv lignin catalyzed by zeolite supported Ni nanoparticles, 2015, 17, 5079-5090. 

33.  Stanislav Kasakov, Chen Zhao, Eszter Barth, Zizwe A. Chase, John L. Fulton, Donald M. Camaioni, Aleksei Vjunov, Hui Shi, Johannes A. Lercher*, Chemistry: A European Journal, “Glucose- and cellulose -Derived Ni/C-SO₃H catalysts for liquid phase phenol hydrodeoxygenation”, 2015, 21, 1567-1577.

32.  Sebastian Foraita, John L. Fulton, Zizwe A. Chase, Aleksei Vjunov, Pinghong Xu, Eszter Barth, Donald M. Camaioni, Chen Zhao, Johannes A. Lercher*,Chemistry: A European Journal, “Impact of the oxygen defects and the hydrogen concentration on the surface of tetragonal and monoclinic ZrO₂ on the reduction rates of stearic acid on Ni/ZrO₂” , 2015, 21, 2423-2434.

31.木质素解聚和加氢脱氧的进展[综述]，孔劼琛, 骆治成, 李愽龙, 吴浏璧, 何鸣元, 赵晨*，中国科学：化学，2015, 45, 510–525. [大宗化学品可持续化工-生物融合转化专刊]

30. 油脂催化转化为绿色燃料的技术进展[综述], 马冰, 张晶晶, 崔慧梅, 何鸣元, 赵晨*，中国科学：化学，2015, 45, 350–360. [女化学家专刊]

Year 2006-2014

29.  Yulin Yang, Jianghong Ding, Binshen Wang, Jing Wu, Chen Zhao, Guohua Gao, Peng Wu*, Journal of Catalysis, “Influences of fluorine implantation on catalytic performance and porosity of MOR-type titanosilicate”, 2014, 320, 160-169.

28.  Jiayue He, Chen Zhao,* Donghai Mei, Johannes A. Lercher*,Journal of Catalysis,“Mechanisms of selective cleavage of C−O bonds in di-aryl ethers in aqueous phase”, 2014, 309, 280-290.

27.  Jiayue He, Lu Lu, Chen Zhao,* Donghai Mei, Johannes A. Lercher*, Journal of Catalysis, “Mechanisms of catalytic cleavage of C−O bond of benzyl phenyl ether in polar and apolar phases”, 2014, 311, 41-51.

26.  Jiayue He, Chen Zhao,* Johannes A. Lercher*, Journal of Catalysis, “Impact of solvent for individual steps of phenol hydrodeoxygenation with Pd/C and HZSM-5 as catalysts”, 2014, 309, 362-375.

25.  Aleksei Vjunov, Mary Y. Hu, Ju Feng, Donald M. Camaioni, Donghai Mei, Jian Z. Hu, Chen Zhao, Johannes A. Lercher*, Angewandte Chemie International Edition, “Following solid acid catalyzed reactions by MAS NMR spectroscopy in liquid phase – zeolite catalyzed conversion of cyclohexanol in water”, 2014, 53, 479-482.

24.  Wenji Song, Chen Zhao,* Johannes A. Lercher,* Chemistry: A European Journal,“Importance of size and distribution of Ni nanoparticles for hydrodeoxygenation of microalgae oil”, 2013, 19, 9833-9842. [Cover paper].

23.  Baoxiang Peng, Chen Zhao,* Stanislav Kasakov, Sebastian Foraita, Johannes A. Lercher,* Chemistry: A European Journal, “Manipulating catalytic pathways - Catalytic deoxygenation of palmitic acid on multi-functional catalysts”, 2013, 19, 4732-4741. [Cover paper]

22.  Chen Zhao,*Thomas Brück,Johannes A. Lercher,* Green Chemistry,“Catalytic deoxygenation of microalgae oil to green hydrocarbons”, 2013, 15, 1720-1739.[Invited Review, Cover paper]

21.  Zizwe A. Chase, John L. Fulton, Donald M. Camaioni, Donghai Mei, Mali Balasubramanian, Van-Thai Pham, Chen Zhao, Robert Weber, Yong Wang, Johannes A. Lercher, Journal of Physical Chemistry C, “State of supported Pd during catalysis in water”,2013, 117, 17603-17612.

20.  Chen Zhao,*Yanzhe Yu, Andreas Jentys, Johannes A. Lercher*,Applied Catalysis B: Environmental,“Understanding the impact of aluminium oxide binder on Ni/HZSM-5 for phenol hydrodeoxygenation”, 2013, 132-133, 282-292.

19.  Jiayue He, Chen Zhao,* Johannes A. Lercher,* Journal of the American Chemical Society, “Ni catalyzed cleavage of aryl ethers in aqueous phase”,2012, 134, 20768-20775.

18.  Chen Zhao, Johannes A. Lercher*, Angewandte Chemie International Edition,“Towards upgrading pyrolysis oil over Ni/HZSM-5 via cascade reactions”, 2012,51, 5935-5940. [Cover paper, highlighted by RSC Advancing the Chemical Sciences]

17.  Chen Zhao, Donald M. Camaioni, Johannes A. Lercher*, Journal of Catalysis, “Selective catalytic hydroalkylation and deoxygenation of substituted phenols to bicycloalkanes”, 2012, 288, 92-103.

16.  Chen Zhao, Stanislav Kazacov, Jiayue He, Johannes A. Lercher*,Journal of Catalysis,“Comparison of kinetics, activity, and stability of Ni/HZSM-5 and Ni/Al₂O₃-HZSM-5 for phenol hydrodeoxygenation”, 2012, 296, 12-23.

15.  Chen Zhao, Wenji Song, Johannes A. Lercher*, ACS Catalysis, “Aqueous phase hydroalkylation and hydrodeoxygenation of phenol by dual functional catalysts comprising of Pd/C and H/La-BEA”, 2012, 2, 2714-2723.

14.  Chen Zhao, Johannes A. Lercher*, ChemCatChem, “Hydrodeoxygenation of substituted mono- and bi-phenols to cycloalkanes on a Pd/C and HZSM-5 catalyst system”, 2012, 4, 64-68. [Hottest paper in Green & Sustainable Chemistry, Wiley-VCH & ChemPubSoc Europe]

13.  Baoxiang Peng, Yuan Yao, Chen Zhao, Johannes A. Lercher*, Angewandte Chemie International Edition,“Towards quantitative conversion of microalgae oil to diesel range alkanes with dual functional catalysts”, 2012, 51, 2072-2075. [Cover paper]

12.  Baoxiang Peng, Xiaoguo Yuan, Chen Zhao, and Johannes A. Lercher*, Journal of the American Chemical Society, “Stabilizing catalytic pathways via redundancy - selective reduction of microalgae oil to alkanes”,2012, 134, 9400-9405.

11.  Baoxiang Peng, Chen Zhao, Isidro Mejía-Centeno1, Gustavo A. Fuentes1, Andreas Jentys, Johannes A. Lercher*, Catalysis Today, “Comparison of kinetics and reaction pathways for hydrodeoxygenation of C₃ alcohols on Pt/Al₂O₃”, 2012, 183, 3-9.

10.  Chen Zhao, Jiayue He, Angeliki A. Lemonidou, Xuebing Li, Johannes A. Lercher*, Journal of Catalysis,“Aqueous-phase hydrodeoxygenation of bio-derived phenols to cycloalkanes”, 2011, 280, 8-16.

9.  Chen Zhao, Yuan Kou, Angeliki A. Lemonidou, Xuebing Li, Johannes A. Lercher*, Chemical Communications,“Hydrodeoxygenation of bio-derived phenols to hydrocarbons using RANEY Ni and Nafion/SiO₂ catalysts”, 2010, 46, 412-414.

8.  Chen Zhao, Yuan Kou*, Angeliki A. Lemonidou, Xuebing Li, Johannes A. Lercher*, Angewandte Chemie International Edition,“Highly selective catalytic conversion of phenolic bio-oil to alkanes”, 2009, 48, 3987-3990.

7.  Chen Zhao, Weijia Gan, Xiaobing Fan, Zhipeng Cai, Paul J. Dyson, Yuan Kou*,Journal of Catalysis,“Aqueous-phase biphasic dehydroaromatization of bio-derived limonene into p-cymene by soluble Pd nanocluster catalysts”, 2008,254, 244-250.

6.  Ning Yan, Chen Zhao, Paul J. Dyson, Chen Wang, Ling-tao Liu, Yuan Kou*, ChemSusChem, “Selective degradation of wood lignin over noble-metal catalysts in a two-step process”, 2008, 1, 626-629.

5.  Chen Zhao, Hanzhi Wang, Ning Yan, Chao-xian Xiao, Xindong Mu, Paul J. Dyson, Yuan Kou*, Journal of Catalysis,“Ionic-liquid-like copolymer stabilized nanocatalysts in ionic liquids: II. Rhodium-catalyzed hydrogenation of arenes”, 2007, 250, 33-40.

4.  Ning Yan, Chen Zhao, Chen Luo, Paul J. Dyson, Haichao Liu*, Yuan Kou*, Journal of the American Chemical Society,“One-step conversion of cellobiose to C₆alcohols using a ruthenium nanocluster catalyst”, 2006, 128, 8714-8715.

3. 多元醇：新一代的能源平台？[综述]，颜宁，赵晨，甘维佳，寇元，催化化学，2006,  27, 1159-1163.

书籍(章节)：

1. Chen Zhao*, Johannes A. Lercher, Catalytic depolymerization and deoxygenation of lignin, In Kostas Triantafyllidis, Michael Stocker, Angelos Lappas, editors: The role of catalysis for the sustainable production of bio-fuels and bio-chemicals, Publisher: Elsevier, The Netherlands, 2013, pp291-323.

2. Zhicheng Luo, Jiechen Kong, Liubi Wu, Chen Zhao*, Nanoporous materials catalyzed depolymerization of lignin to fuels and chemicals, In Liang Wang, Fengshou Xiao, editors:”Nanoporous Catalysts for biomass conversion”, Publisher: John Wiley & Sons Ltd., 2017, pp177-210.

专利

已授权专利：

1.      赵晨，张晶晶，通过油脂与供氢溶剂共活化制备生物航煤的方法，中国专利：ZL201410593592.2，授权号：CN 104371758 B，授权日：2016.02.24。

2.      赵晨，骆治成，通过两步法催化转化木质素为芳烃的方法，中国专利：ZL201410596469.6，授权号：CN104387223B，授权日： 2016.08.24.

3.      赵晨，孔劼琛，一种由木质素制备链状烷烃的方法，中国专利：ZL201410597182.5，授权号：CN 104388110 B, 授权日：2017.01.18.

4.      赵晨，马冰，加氢脱氧异构化催化剂的制备及其在地沟油制备柴油中的应用，中国专利，申请号：ZL201510489007.9, 授权号：CN 105126898，授权日：2017.11.24.

5.      赵晨，孔劼琛，陆毅坚，一种以木质素和油脂为原料联产芳烃和航空煤油的方法，中国专利，申请号：ZL201610913356.3. 授权号：CN 106520169 B, 授权日：2018.04.13.

6.      赵晨，骆治成，褚大旺，郑朝霞，从生物油制备富含二甲苯的芳烃和多孔炭/固体酸的方法，中国专利，申请号：ZL201610970747.9, 授权号：CN 106554821 B, 授权日：2018.04.13.

7.      赵晨，田井清，马冰，一种甲烷干气重整催化剂及其制备方法，中国专利，申请号：ZL201610788640.2，授权号：CN 106512999B，授权日：2019.11.15.

8.      赵晨，田井清，马冰，一种甲烷干气重整催化剂及其制备方法，中国专利，申请号：ZL201610788683.0，授权号：CN106391031B，授权日：2019.11.15.

9.      赵晨，骆治成，褚大旺，郑朝霞，一种从天然木质素纤维素原料制备丙二醇型防冻液的方法，中国专利，申请号：ZL20161093244.8，授权号：CN106543982B，授权日：2019.11.5.

申请中的专利：

1.      赵晨，马冰，多级孔分子筛负载金属催化剂的制备及其在油脂加氢脱氧中的应用，中国专利，申请号：ZL201410593989.1

2.      赵晨，孔劼琛，一种从脂肪酸或脂肪酸酯选择性加氢制备脂肪醇的方法，中国专利，申请号：ZL201410593591.8.

3.      赵晨，吴浏璧，孔劼琛，无氢条件下脂肪酸或脂肪酸酯制备脂肪醇的方法以及应用于该方法的催化剂，中国专利，申请号：ZL201510489009.8

4.      赵晨，褚大旺，孙豪，一种一锅法转化纤维素为生物乙醇的方法，中国专利，申请号：ZL20180307653.2

5.      赵晨，李愽龙，林凯，一种两步法转化生物油脂为alfa-烯烃的方法，中国专利，申请号：ZL201810319147.5

6.      赵晨，李愽龙，一种无氢条件下油脂脱羰为长链烷烃的方法，中国专利，申请号：ZL201810487039.9

7.    赵晨，陈爽，秦淑芳，会映双，一种转化木质素为乙苯的方法，中国专利，申请号：ZL201810488416.0

8.     赵晨，孙豪，方园，一种无氢条件下一锅法转化草酸二甲酯为乙二醇的方法，中国专利，申请号：ZL201811013874.5.

9.     赵晨，田井清，一种Ni基催化剂及其制备方法和在煤制油尾气为原料制备合成气中的应用，中国专利，申请号：ZL201910063496.1.

10.     赵晨，田井清，一种Ni基催化剂及其制备方法和在焦炉煤气为原料制备合成气中的应用，中国专利，申请号：ZL201910063496.X.

11.    赵晨，褚大旺，辛莹莹，一种化学法转化玉米芯糠醛渣为生物乙醇的方法，中国专利，申请号：ZL2019012801448520.

12.    赵晨，陈爽，吴婷婷，一种油脂转化为润滑油的方法，中国专利，申请号：ZL201910298657.3.

13.    赵晨，李愽龙，陈爽，一种从油脂生产全合成润滑油的方法，中国专利，申请号：ZL201910298658.8.

14. 赵晨，李浩成，田井清，一种液相选择性加氢糠醛制备糠醇的催化剂，中国专利，申请号：ZL201910778885.0.

15. 赵晨，陈爽，吴婷婷，一种生物质基T型低粘度全合成润滑油的制备方法，中国专利，申请号：ZL201911063339.5.

16. 赵晨，陈爽，吴婷婷，一种生物质基低粘度全合成润滑油的制备方法，中国专利，申请号：ZL201911063255.1

17. 赵晨，赵磊，李愽龙，一种从糠醛生产呋喃二甲酸及其衍生物的方法，中国专利，申请号：ZL202010030966.5

18. 赵晨，李愽龙，赵磊，一种2，5-呋喃二甲酸的合成方法，中国专利，申请号：ZL202010031253.0.

19. 赵晨，陈爽，吴婷婷，一种生物质基低粘度润滑油的合成方法，中国专利，申请号：ZL202010118816.X.

20. 赵晨，辛莹莹，褚大旺，一种木质素基热塑性酚醛树脂的合成方法，中国专利，申请号：ZL202010175409.2.

21. 赵晨，朱越，陈爽，一种从糠醛制备生物质基聚四氢呋喃的方法，中国专利，申请号：ZL202010221648.7.

22. 赵晨，秦淑芳，骆治成，一种液相转化高浓度木质素为环烷烃的方法，中国专利，申请号：ZL202010224315.X.

23. 赵晨，高志文，田井清，一种从PET塑料制备汽油和防冻液的方法，中国专利，申请号：ZL202010248576.5.

24. 赵晨，雷淑桃，赵磊，李愽龙，一种从糠醛制备高熔点蜡的方法，中国专利，申请号：ZL202010298751.1.

2015年获闵恩泽能源化工奖

2012年入选世界催化年会优秀青年科学家奖

学生获奖情况：获上海市优秀博士毕业生（1 名），上海市优秀硕士毕业生（1 名），华东师范大学优秀博士毕业生（2 名），华东师范大学优秀硕士毕业生（1 名）

国家奖学金（博士）获得者：2名

国家奖学金（硕士）获得者：2名