主要从事于有机金属催化剂和贵金属纳米催化剂的合成，工业催化，精细化工，汽车尾气处理相关技术研究。

   

080501-材料物理与化学
0703J1-纳米科学与技术

多相催化，机动车尾气处理
纳米材料合成与催化应用，工业催化

2000-06--2006-08 美国俄亥俄大学化学系 博士学位
1999-09--2000-05 南京大学化学化工学院化学系 无
1995-09--1999-07 南京大学化学化工学院化学系 学士学位

研究生

博士学位

   

2010-09--今 中国科学院宁波材料技术与工程研究所 研究员
2007-02--2010-09 美国橡树岭国家实验室 博士后
2006-09--2007-01 美国俄亥俄大学化学系 博士后

高等无机化学

   

[1] 许杰, 尹宏峰. 一种加氢裂化催化剂及其制备方法与应用. CN: CN114100681A, 2022-03-01.
[2] 尹宏峰, 李通, 余小龙. 一种连续生产碳酸二甲酯的方法及系统. CN: CN113956161A, 2022-01-21.
[3] 许杰, 尹宏峰. 一种加氢裂化催化剂及其制备方法与应用. CN: CN113731475A, 2021-12-03.
[4] 余小龙, 尹宏峰, 李通. 碳酸二甲酯的合成催化剂及其制备方法与应用. CN: CN113385207A, 2021-09-14.
[5] 尹宏峰, 许杰. 一种加氢精制催化剂及其制备方法与应用. CN: CN109304180B, 2021-04-02.
[6] 尹宏峰, 许杰. 一种处理劣质重油的加工方法及加氢保护催化剂与应用. CN: CN112574781A, 2021-03-30.
[7] 许杰, 尹宏峰. 一种劣质重油的加氢处理方法及加氢保护催化剂与应用. CN: CN112574780A, 2021-03-30.
[8] 尹宏峰, 许杰. 一种劣质重油的加工方法及加氢保护催化剂与应用. CN: CN112574779A, 2021-03-30.
[9] 李通, 尹宏峰, 严波, 李梦珠, 张洁, 励斌. 1,3-二氯丙醇生产1,3-丙二醇的方法及系统. CN: CN112479811A, 2021-03-12.
[10] 尹宏峰, 王石维. 一种封装型分子筛金属催化剂及其制备方法与应用. CN: CN112295594A, 2021-02-02.
[11] 许杰, 尹宏峰. 一种重芳烃轻质化的加工方法及重芳烃选择性加氢催化剂. CN: CN112295607A, 2021-02-02.
[12] 尹宏峰, 许杰. 一种芳烃溶剂油的生产方法及溶剂油选择性加氢催化剂. CN: CN112295606A, 2021-02-02.
[13] 许杰, 尹宏峰. 一种选择性加氢催化剂及其制备方法与应用. CN: CN112275292A, 2021-01-29.
[14] 许杰, 尹宏峰. 一种选择性加氢催化剂及其制备方法与应用. CN: CN112275292A, 2021-01-29.
[15] 李通, 尹宏峰, 严波, 李梦珠, 张洁, 励斌. 一种多步法生产1,3-丙二醇的方法及系统. CN: CN112266320A, 2021-01-26.
[16] 尹宏峰, 励斌, 严波, 张洁, 周生虎. 一种贵金属负载的蛋壳型催化剂及其制备方法与应用. CN: CN112264038A, 2021-01-26.
[17] 励斌, 严波, 尹宏峰, 张洁, 周生虎. 一种新型雷尼铜催化剂及其制备方法与应用. CN: CN112264044A, 2021-01-26.
[18] 尹宏峰, 许杰. 一种精萘的生产方法. CN: CN110256187A, 2019-09-20.
[19] 许杰, 尹宏峰. 工业萘选择性加氢催化剂载体及其制备方法. CN: CN110252273A, 2019-09-20.
[20] 尹宏峰, 许杰. 工业萘选择性加氢催化剂及其制备方法. CN: CN110252325A, 2019-09-20.
[21] 尹宏峰, 许杰. 一种工业萘生产的精萘方法. CN: CN110256191A, 2019-09-20.
[22] 许杰, 尹宏峰. 工业萘选择性加氢催化剂、其制备方法与应用. CN: CN110252296A, 2019-09-20.
[23] 王義传, 尹宏峰, 黄伟新, 余小龙. 用于加氢合成对氨基苯酚反应的催化剂、制备方法及应用. CN: CN109847762A, 2019-06-07.
[24] 尹宏峰, 许杰. 处理劣质油料的加氢精制催化剂及其制备方法与应用. CN: CN109304182A, 2019-02-05.
[25] 许杰, 尹宏峰. 处理劣质油料的加氢处理催化剂及其制备方法与应用. CN: CN109304183A, 2019-02-05.
[26] 尹宏峰, 许杰. 一种加氢精制催化剂及其制备方法与应用. CN: CN109304180A, 2019-02-05.
[27] 席盼盼, 尹宏峰. 一种可控的双金属核壳纳米结构、催化剂、其制法与应用. CN: CN108579758A, 2018-09-28.
[28] 尹宏峰, 许杰, 徐光辉, 欧阳翔, 刘军. 一种重苯萘生产精萘方法. CN: CN108409522A, 2018-08-17.
[29] 梁萧雅, 尹宏峰, 余小龙. M y /La x Sr 1-x Ti 1-y O 3 催化剂、其制法及应用. CN: CN108295849A, 2018-07-20.
[30] 梁萧雅, 尹宏峰, 余小龙. M y /La x Sr 1-x Ti 1-y O 3 催化剂、其制法及应用. 中国: CN108295849A, 2018-07-20.
[31] 许杰, 尹宏峰. 劣质油料生产柴油的方法及系统. CN: CN106520168A, 2017-03-22.
[32] 余小龙, 尹宏峰, 于洪波. 用于加氢合成对氯苯胺反应的催化剂、其制备方法及应用. CN: CN105562032A, 2016-05-11.
[33] 薛业建, 王蔚国, 尹宏峰, 周陈. 一种三元催化剂及其制备方法. CN: CN103182305A, 2013-07-03.
[34] 尹宏峰, 许杰. 一种精萘的生产方法. CN: CN1029310C, 1995-07-12.

   

[1] Wang, Shuibo, Wu, Chunzheng, Yu, Hongbo, Chu, Yuting, Wang, Shiwei, Li, Tong, Yin, Hongfeng. Tuning the catalytic performance of Pt/SiO2 catalysts by CoOx modification for selective hydrogenations of unsaturated carbonyl compounds. APPLIED SURFACE SCIENCE[J]. 2022, 606: http://dx.doi.org/10.1016/j.apsusc.2022.154867.
[2] Shi, Yu, Wang, Shiwei, Li, Yiming, Yang, Fan, Yu, Hongbo, Chu, Yuting, Li, Tong, Yin, Hongfeng. Improving Anti-Coking Properties of Ni/Al2O3 Catalysts via Synergistic Effect of Metallic Nickel and Nickel Phosphides in Dry Methane Reforming. MATERIALS[J]. 2022, 15(9): http://dx.doi.org/10.3390/ma15093044.
[3] Zhang, Fei, Wu, Chunzheng, Wang, Shuibo, Wang, Shiwei, Li, Tong, Zou, Laixi, Yu, Hongbo, Yin, Hongfeng. Tailoring the activity and selectivity of Rh/SiO2 for the selective hydrogenation of phenol by CoOx promotion. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2022, 12(7): 2257-2264, http://dx.doi.org/10.1039/d1cy02324a.
[4] Yang, Fan, Yu, Hongbo, Wu, Chunzheng, Wang, Shiwei, Li, Tong, Yin, Hongfeng. RhCu Bimetallic Nanoparticles in Hollow Carbon Spheres for Catalytic Halonitrobenzene Chemoselective Hydrogenation. ACS APPLIED NANO MATERIALS[J]. 2022, 5(8): 11627-11635, http://dx.doi.org/10.1021/acsanm.2c02358.
[5] Wang, Shiwei, Li, Tianhao, Chu, Yuting, Li, Tong, Yu, Hongbo, Wang, Shuibo, Chai, Juan, Yan, Bo, Zhou, Xiaobing, Yin, Hongfeng. Ethylenediamine Assisted Synthesis of Sn-MFI Zeolite with High Space-Time Yield as Lewis Acidic Catalysts for Conversion of Dihydroxypropanone to Methyl Lactate. EUROPEAN JOURNAL OF INORGANIC CHEMISTRY[J]. 2022, 2022(22): [6] Chai, Juan, Yuan, Luohao, Wang, Shiwei, Li, Tong, Wu, Mingxue, Huang, Zhiwei, Yin, Hongfeng. A series of novel Cu-based MOFs: syntheses, structural diversity, catalytic properties and mimic peroxidase activity for colorimetric detection of H2O2. NEW JOURNAL OF CHEMISTRY[J]. 2022, 46(25): 12372-12380, http://dx.doi.org/10.1039/d2nj01981g.
[7] Xiao, Tao, Yan, Peijian, Li, Kaijie, Yang, Caoping, Yu, Hongbo, Wang, Junyou, Yin, Hongfeng, Zhou, Shenghu. Hollow Mesoporous Nanoreactors with Encaged PtSn Alloy Nanoparticles for Selective Hydrogenation of Furfural to Furfuryl Alcohol. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2021, 60(17): 6078-6088, http://dx.doi.org/10.1021/acs.iecr.1c00293.
[8] Yang, Fan, Wu, Chunzheng, Yu, Hongbo, Wang, Shiwei, Li, Tong, Yan, Bo, Yin, Hongfeng. The fabrication of hollow ZrO2 nanoreactors encapsulating Au-Fe2O3 dumbbell nanoparticles for CO oxidation dagger. NANOSCALE[J]. 2021, 13(14): 6856-6862, http://dx.doi.org/10.1039/d1nr00173f.
[9] Yu, Hongbo, Zhao, Jihao, Wu, Chunzheng, Yan, Bo, Zhao, Shuangliang, Yin, Hongfeng, Zhou, Shenghu. Highly Efficient Ir-CoOx Hybrid Nanostructures for the Selective Hydrogenation of Furfural to Furfuryl Alcohol. LANGMUIR[J]. 2021, 37(5): 1894-1901, http://dx.doi.org/10.1021/acs.langmuir.0c03367.
[10] Li, Kaijie, Yang, Caoping, Yu, Hongbo, Xiao, Tao, Guan, Wenjun, Ding, Peng, Yin, Hongfeng, Stuart, Martien Abraham Cohen, Wang, Junyou, Zhou, Shenghu. Coordination-Enhanced Synthesis for Hollow Mesoporous Silica Nanoreactors. CHEMISTRY OF MATERIALS[J]. 2020, 32(5): 2086-2096, https://www.webofscience.com/wos/woscc/full-record/WOS:000519337600035.
[11] Wang, Shujian, Wu, Chunzheng, Yu, Hongbo, Li, Tong, Yan, Xuedong, Yan, Bo, Yin, Hongfeng. Fabrication of Ir-CoOx@mesoporous SiO2 Nanoreactors for Selective Hydrogenation of Substituted Nitroaromatics. ACS APPLIED MATERIALS & INTERFACES[J]. 2020, 12(8): 9966-9976, https://www.webofscience.com/wos/woscc/full-record/WOS:000517360000109.
[12] Jinxia Wei, Kaijie Li, Hongbo Yu, Hongfeng Yin, Martien A Cohen Stuart, Junyou Wang, Shenghu Zhou. Controlled Synthesis of Manganese Oxide Nanoparticles Encaged in Hollow Mesoporous Silica Nanoreactors and Their Enhanced Dye Degradation Activity. ACS OMEGA[J]. 2020, 5(12): 6852-6861, https://www.webofscience.com/wos/woscc/full-record/WOS:000523299700065.
[13] Yu, Hongbo, Guo, Zhengtong, Wu, Chunzheng, Wang, Shujian, Li, Bin, Yan, Xuedong, Yan, Bo, Yin, Hongfeng. One-pot synthesis of Au-Fe2O3@SiO2 core-shell nanoreactors for CO oxidation. NEW JOURNAL OF CHEMISTRY[J]. 2020, 44(15): 5661-5665, https://www.webofscience.com/wos/woscc/full-record/WOS:000531211600004.
[14] Xu, Caiyun, Li, Qi, Zhang, Qiuyang, Li, Kaijie, Yin, Hongfeng, Zhou, Shenghu. Structural Identification and Enhanced Catalytic Performance of Alumina-Supported Well-Defined Rh-SnO2 Close-Contact Heteroaggragate Nanostructures. ACS APPLIED NANO MATERIALS[J]. 2019, 2(8): 5086-5095, https://www.webofscience.com/wos/woscc/full-record/WOS:000483440400045.
[15] Yin, Hongfeng, Li, Qi, Zhou, Shenghu, Yu, Hongbo. Controlled synthesis and enhanced catalytic activity of well-defined close-contact Pd-ZnO nanostructures using PdZn ordered nanoparticle precursors. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY[J]. 2019, 258: [16] Yu, Hongbo, Tang, Weiqiang, Li, Kaijie, Zhao, Shuangliang, Yin, Hongfeng, Zhou, Shenghu. Enhanced Catalytic Performance for Hydrogenation of Substituted Nitroaromatics over Ir-Based Bimetallic Nanocatalysts. ACS APPLIED MATERIALS & INTERFACES[J]. 2019, 11(7): 6958-6969, [17] Li, Qi, Yu, Hongbo, Li, Kaijie, Yin, Hongfeng, Zhou, Shenghu. Controlled Synthesis and Enhanced Catalytic Activity of Well-Defined Close-Contact Pd-ZnO Nanostructures. LANGMUIR[J]. 2019, 35(19): 6288-6296, [18] Yu, Hongbo, Tang, Weiqiang, Li, Kaijie, Yin, Hongfeng, Zhao, Shuangliang, Zhou, Shenghu. Design of Cu-based intermetallic nanocrystals for enhancing hydrogenation selectivity. CHEMICAL ENGINEERING SCIENCE[J]. 2019, 196: 402-413, http://dx.doi.org/10.1016/j.ces.2018.11.024.
[19] Qiuyang Zhang, Caiyun Xu, Hongfeng Yin, Shenghu Zhou. Enhanced Catalytic Hydrogenation Performance of Rh-Co2O3 Heteroaggregate Nanostructures by in Situ Transformation of Rh@Co Core-Shell Nanoparticles. ACS OMEGA[J]. 2019, 4(24): 20829-20837, https://www.webofscience.com/wos/woscc/full-record/WOS:000502130800046.
[20] Yin, Hongfeng, Guo, Zhengtong. One-pot construction of Au-FeOx@SiO2 core-shell nanostructure with both high catalytic activity and good thermal stability. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY[J]. 2019, 258: [21] Liu, Miaomiao, Tang, Weiqiang, Xu, Yisheng, Yu, Hongbo, Yin, Hongfeng, Zhao, Shuangliang, Zhou, Shenghu. Pd-SnO2/Al2O3 heteroaggregate nanocatalysts for selective hydrogenations of p-nitroacetophenone and p-nitrobenzaldehyde. APPLIED CATALYSIS A-GENERAL[J]. 2018, 549: 273-279, http://dx.doi.org/10.1016/j.apcata.2017.10.004.
[22] 于志勇, 余小龙, 华达银, 尹宏峰. Pt/WO3-x纳米催化剂的制备及其性能研究. 化学试剂[J]. 2018, 40(5): 422-424, http://lib.cqvip.com/Qikan/Article/Detail?id=675246753.
[23] Yang, Guangming, Zhou, Shenghu, Yin, Hongfeng. Building up AuPd@m-SiO2 nanocatalyst with alloyed noble metal core and mesoporous silica shell structure: Designed composite for enhanced p-chloronitrobenzene hydrogenation selectivity. 256TH NATIONAL MEETING AND EXPOSITION OF THE AMERICAN-CHEMICAL-SOCIETY (ACS) - NANOSCIENCE, NANOTECHNOLOGY AND BEYOND[J]. 2018, http://ir.nimte.ac.cn/handle/174433/17516.
[24] Yin, Hongfeng, Zhou, Shenghu, Yu, Hongbo. Phase-pure intermetallic nanocrystals and enhanced hydrogenation chemoselectivity with intermetallic PtCu nanocatalysts. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2018, 256: https://www.webofscience.com/wos/woscc/full-record/WOS:000447600002074.
[25] Liang, Xiaoya, Wu, Chunzheng, Yu, Xiaolong, Huang, Weixin, Yin, Hongfeng. Pd Doped La0.1Sr0.9TiO3 as High-Temperature Water-Gas Shift Catalysts: In-Situ Formation of Active Pd Phase. CATALYSIS LETTERS[J]. 2018, 148(9): 2830-2838, http://dx.doi.org/10.1007/s10562-018-2462-9.
[26] Yin, Hongfeng, Zhou, Shenghu, Yang, Guangming. Building up AuPd@m-SiO2 nanocatalyst with alloyed noble metal core and mesoporous silica shell structure: Designed composite for enhanced p-chloronitrobenzene hydrogenation selectivity. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY[J]. 2018, 256: https://www.webofscience.com/wos/woscc/full-record/WOS:000447600004373.
[27] Li, Kaijie, Wei, Jinxia, Yu, Hongbo, Xu, Pengyao, Wang, Jiahua, Yin, Hongfeng, Stuart, Martien A Cohen, Wang, Junyou, Zhou, Shenghu. A Generic Method for Preparing Hollow Mesoporous Silica Catalytic Nanoreactors with Metal Oxide Nanoparticles inside Their Cavities. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2018, 57(50): 16458-16463, https://www.webofscience.com/wos/woscc/full-record/WOS:000453346300036.
[28] Yang, Guangming, Yu, Hongbo, Zhang, Jianfeng, Yin, Hongfeng, Ma, Zhen, Zhou, Shenghu. AuPd@Mesoporous SiO2: Synthesis and Selectivity in Catalytic Hydrogenation/Hydrodechlorination of p-Chloronitrobenzene. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY[J]. 2017, 17(6): 3744-3750, http://ir.nimte.ac.cn/handle/174433/13812.
[29] 贾晓丹, 谢朝晖, 华达银, 尹宏峰. PdAg、PdAu合金纳米晶的制备及其催化性能研究. 化学试剂[J]. 2017, 337-340, http://ir.nimte.ac.cn/handle/174433/13405.
[30] 张瀚, 王磊, 胡广林, 熊春荣, 尹宏峰. Pd/CNTs金属纳米催化剂的制备及其催化对氯硝基苯加氢性能. 化学试剂[J]. 2017, 39(11): 1142-1145, http://lib.cqvip.com/Qikan/Article/Detail?id=673742080.
[31] Liu, Miaomiao, Tang, Weiqiang, Xie, Zhaohui, Yu, Hongbo, Yin, Hongfeng, Xu, Yisheng, Zhao, Shuangliang, Zhou, Shenghu. Design of Highly Efficient Pt-SnO2 Hydrogenation Nanocatalysts using Pt@Sn Core-Shell Nanoparticles. ACS CATALYSIS[J]. 2017, 7(3): 1583-1591, http://ir.nimte.ac.cn/handle/174433/13961.
[32] Yin, Hongfeng, Yu, Xiaolong. Size-controlled synthesis of thermal stable Ru@H-SiO2 core-shell nanoparticles and their catalytic applications. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2016, 252: https://www.webofscience.com/wos/woscc/full-record/WOS:000431460202635.
[33] Yu, Xiaolong, Yu, Hongbo, Lim, ZiYian, Yang, Guangming, Xie, Zhaohui, Zhou, Shenghu, Yin, Hongfeng. Size-controlled synthesis of thermal stable single-cored Ru@H-SiO2 core-shell nanoparticles. CHEMICAL PHYSICS LETTERS[J]. 2016, 654: 103-106, http://dx.doi.org/10.1016/j.cplett.2016.05.018.
[34] Lim, ZiYian, Wu, Chunzheng, Wang, Wei Guo, Choy, KwangLeong, Yin, Hongfeng. Porosity effect on ZrO2 hollow shells and hydrothermal stability for catalytic steam reforming of methane. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2016, 4(1): 153-159, https://www.webofscience.com/wos/woscc/full-record/WOS:000366825300014.
[35] Yin, Hongfeng, Xu, Wei, Zhou, Shenghu, Yu, Hongbo. Synthesis and characterization of doped mesoporous W-FDU-12 with large pores: An enhanced catalyst for metathesis of ethene and 1-butene to propene. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2016, 252: https://www.webofscience.com/wos/woscc/full-record/WOS:000431460201499.
[36] Duan, ChenLong, Deng, Zhang, Cao, Kun, Yin, HongFeng, Shan, Bin, Chen, Rong. Surface passivation of Fe3O4 nanoparticles with Al2O3 via atomic layer deposition in a rotating fluidized bed reactor. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A[J]. 2016, 34(4): http://ir.nimte.ac.cn/handle/174433/12931.
[37] Feng, Zijian, Wang, Jianqiang, Liu, Xiao, Wen, Yanwei, Chen, Rong, Yin, Hongfeng, Shen, Meiqing, Shan, Bin. Promotional role of La addition in the NO oxidation performance of a SmMn2O5 mullite catalyst. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2016, 6(14): 5580-5589, http://ir.nimte.ac.cn/handle/174433/13150.
[38] Zhou, Chen, Zhang, Yexin, Hu, Lingjun, Yin, Hongfeng, Wang, Wei Guo. Synthesis, Characterization, and Catalytic Activity of Mn-doped Perovskite Oxides for Three-Way Catalysis. CHEMICAL ENGINEERING & TECHNOLOGY[J]. 2015, 38(2): 291-296, https://www.webofscience.com/wos/woscc/full-record/WOS:000348924600011.
[39] Hu, Lingjun, Zhou, Chen, Wu, Chunzheng, Zhou, Shenghu, Wang, Wei Guo, Yin, Hongfeng. Fe,Pd Co-Incorporated LaCoO3 Perovskites: Modification of Thermal Stability and Catalytic Activity for Gasoline Vehicle Exhaust Purification. EUROPEAN JOURNAL OF INORGANIC CHEMISTRY[J]. 2015, 2015(13): 2317-2322, https://www.webofscience.com/wos/woscc/full-record/WOS:000354214300017.
[40] Lim, ZiYian, Wu, Chunzheng, Wang, Wei Guo, Choy, KwangLeong, Yin, Hongfeng. A novel and anti-agglomerating Ni@yolk-ZrO2 structure with sub-10 nm Ni core for high performance steam reforming of methane. RSC ADVANCES[J]. 2015, 5(76): 61925-61932, http://ir.nimte.ac.cn/handle/174433/12752.
[41] Zhou, Chen, Feng, Zijian, Zhang, Yexin, Hu, Lingjun, Chen, Rong, Shan, Bin, Yin, Hongfeng, Wang, Wei Guo, Huang, Aisheng. Enhanced catalytic activity for NO oxidation over Ba doped LaCoO3 catalyst. RSC ADVANCES[J]. 2015, 5(36): 28054-28059, https://www.webofscience.com/wos/woscc/full-record/WOS:000351870500005.
[42] Wu, Chunzheng, Yin, Hongfeng, Lim, Zi-Yian, Zhou, Chen, Wang, Wei Guo, Zhou, Shenghu, Zhu, Yuejin. Soft-templated method to synthesize mesoporous-silica core-shell nanocatalysts with single sub-5nm noble metal core: An effective approach toward high activity and sintering resistance. 2014, 247: http://www.irgrid.ac.cn/handle/1471x/1779629.
[43] Zhou, Chen, Liu, Xiao, Wu, Chunzheng, Wen, Yanwei, Xue, Yejian, Chen, Rong, Zhang, Zhaoliang, Shan, Bin, Yin, Hongfeng, Wang, Wei Guo. NO oxidation catalysis on copper doped hexagonal phase LaCoO3: a combined experimental and theoretical study. PHYSICAL CHEMISTRY CHEMICAL PHYSICS[J]. 2014, 16(11): 5106-5112, https://www.webofscience.com/wos/woscc/full-record/WOS:000332395700015.
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（2） 甘油制备1,3-丙二醇技术探索研究，主持，其他级，2015-08--2016-10
（3） 多氯苯高压液相催化加氢技术开发，参与，其他级，2015-05--2016-06
（4） 可降解PBS塑料单体联产技术研究与示范，参与，市地级，2015-01--2017-12
（5） 纳米复合物（Au-MOx）@m-SiO2介孔核壳结构的合成及其在高温氧化反应中的催化作用和抗烧结研究，主持，省级，2015-01--2017-12
（6） 高效金属-氧化物复合催化剂的理性设计与性能调控，参与，国家级，2013-01--2017-08