基本信息
王慧  女  博导  中国科学院上海高等研究院
电子邮件: wanghh@sari.ac.cn
通信地址: 上海浦东新区海科路100号
邮政编码: 201210

招生信息

   
招生专业
070304-物理化学
085600-材料与化工
070303-有机化学
招生方向
二氧化碳资源化利用
C1分子高值转化

教育背景

2001-06--2006-06   中国科学院山西煤炭化学研究所   博士

工作经历

   
工作简历
2013-04~现在, 中国科学院上海高等研究院, 研究员
2006-07~2013-04,上海大学, 副研究员

专利与奖励

   
奖励信息
(1) 壳牌中国优秀科研成果奖, 一等奖, 其他, 2007
专利成果
( 1 ) 种氟化铜基类水滑石催化剂及其制备方法和应用, 发明专利, 2016, 第 1 作者, 专利号: 20610060719.3

( 2 ) 一种层状结构铜基催化剂及其制备方法和应用, 发明专利, 2016, 第 1 作者, 专利号: 20610060746.0

( 3 ) 一种以CoM1M2基类水滑石为前驱体的合成气制混合醇催化剂及其制法和应用, 发明专利, 2015, 第 1 作者, 专利号: 201510159998.4

( 4 ) 氧化镁-介孔碳复合材料的制备方法, 发明专利, 2014, 第 3 作者, 专利号: 201410173888.9

( 5 ) 一种用于多元混合气合成甲醇催化剂及其制备方法, 发明专利, 2013, 第 4 作者, 专利号: 201310717749.3

( 6 ) 用于二氧化碳加氢合成甲醇的铜基催化剂及其制法和应用, 发明专利, 2013, 第 5 作者, 专利号: 201310227211.4

( 7 ) 一种铝基覆铜箔板的高导热绝缘涂层的制备方法, 发明专利, 2012, 第 1 作者, 专利号: 201210101949.0

( 8 ) 一种在亚/超临界水中制高热值生物油的方法, 发明专利, 2012, 第 1 作者, 专利号: 201210101987.7

( 9 ) 一种甲烷-二氧化碳重整反应催化剂及其制备方法, 发明专利, 2011, 第 3 作者, 专利号: 201110048283

( 10 ) 利用吸附浓缩检测氢中微量SO2的方法, 发明专利, 2011, 第 1 作者, 专利号: ZL200810034102.X

出版信息

   
发表论文
[1] Zhang, Shunan, Huang, Chaojie, Shao, Zilong, Zhou, Haozhi, Chen, Junjun, Li, Lin, Lu, Junwen, Liu, Xiaofang, Luo, Hu, Xia, Lin, Wang, Hui, Sun, Yuhan. Revealing and Regulating the Complex Reaction Mechanism of CO2 Hydrogenation to Higher Alcohols on Multifunctional Tandem Catalysts. ACS CATALYSIS. 2023, http://dx.doi.org/10.1021/acscatal.2c062453055.
[2] Zhang, Shunan, Liu, Xiaofang, Luo, Hu, Wu, Zhaoxuan, Wei, Baiyin, Shao, Zilong, Huang, Chaojie, Hua, Kaimin, Xia, Lin, Li, Jiong, Liu, Lei, Ding, Weitong, Wang, Hui, Sun, Yuhan. Morphological Modulation of Co2C by Surface-Adsorbed Species for Highly Effective Low-Temperature CO2 Reduction. ACS CATALYSIS[J]. 2022, 12(14): 8544-8557, http://dx.doi.org/10.1021/acscatal.2c02020.
[3] Zilong Shao, Shunan Zhang, Xiaofang Liu, Hu Luo, Chaojie Huang, Haozhi Zhou, Zhaoxuan Wu, Jiong Li, Hui Wang, Yuhan Sun. Maximizing the synergistic effect between Pt0 and Ptδ+ in a confined Pt-based catalyst for durable hydrogen production. APPLIED CATALYSIS B: ENVIRONMENTAL. 2022, 316: http://dx.doi.org/10.1016/j.apcatb.2022.121669.
[4] 刘影, 刘晓放, 夏林, 黄超杰, 吴兆萱, 王慧, 孙予罕. 以类水滑石为前驱体的Cu/ZnO/Al_(2)O_(3)催化剂用于CO_(x)加氢合成甲醇:CO在反应混合物中的作用. 物理化学学报[J]. 2022, 38(3): 56-65, http://lib.cqvip.com/Qikan/Article/Detail?id=7106838769.
[5] Hua, Kaimin, Liu, Xiaofang, Chen, Junjun, Wei, Baiyin, Wang, Hui, Sun, Yuhan. Regioselective Hydroxymethylation of Alkenes to Linear Alcohols with CO2/H-2 Using a Rh/Ru Dual Catalyst. ACS SUSTAINABLE CHEMISTRY & ENGINEERING[J]. 2021, 9(49): 16741-16748, http://dx.doi.org/10.1021/acssuschemeng.1c06057.
[6] Liu, Honglei, Zhou, Cunhui, Li, Wenqian, Li, Wanting, Qiu, Minghuang, Chen, Xinqing, Wang, Hui, Sun, Yuhan. Ultralow Rh Bimetallic Catalysts with High Catalytic Activity for the Hydrogenation of N-Ethylcarbazole. ACS SUSTAINABLE CHEMISTRY & ENGINEERING[J]. 2021, 9(15): 5260-5267, http://dx.doi.org/10.1021/acssuschemeng.0c08270.
[7] Zhang, Shunan, Wu, Zhaoxuan, Liu, Xiufang, Hua, Kaimin, Shao, Zilong, Wei, Baiyin, Huang, Chaojie, Wang, Hui, Sun, Yuhan. A Short Review of Recent Advances in Direct CO2 Hydrogenation to Alcohols. TOPICS IN CATALYSISnull. 2021, 64(5-6): 371-394, http://dx.doi.org/10.1007/s11244-020-01405-w.
[8] Hua, Kaimin, Liu, Xiaofang, Wei, Baiyin, Zhang, Shunan, Wang, Hui, Sun, Yuhan. Research Progress Regarding Transition Metal-Catalyzed Carbonylations with CO2/H-2. ACTA PHYSICO-CHIMICA SINICAnull. 2021, 37(5): https://www.webofscience.com/wos/woscc/full-record/WOS:000616614800016.
[9] Chen, Junjun, Hua, Kaimin, Liu, Xiaofang, Deng, Yuchao, Wei, Baiyin, Wang, Hui, Sun, Yuhan. Selective Production of Linear Aldehydes and Alcohols from Alkenes using Formic Acid as Syngas Surrogate. CHEMISTRY-A EUROPEAN JOURNAL[J]. 2021, 27(38): 9919-9924, http://dx.doi.org/10.1002/chem.202100849.
[10] Wei, Baiyin, Liu, Xiaofang, Hua, Kaimin, Deng, Yuchao, Wang, Hui, Sun, Yuhan. Effectively Regulating the Microenvironment of Atomically Dispersed Rh through Co and Pi to Promote the Selectivity in Olefin Hydroformylation. ACS APPLIED MATERIALS & INTERFACES[J]. 2021, 13(13): 15113-15121, http://dx.doi.org/10.1021/acsami.0c21749.
[11] Huang, Chaojie, Wu, Zhaoxuan, Luo, Hu, Zhang, Shunan, Shao, Zilong, Wang, Hui, Sun, Yuhan. CO2 Hydrogenation to Methanol over PdZnZr Solid Solution: Effects of the PdZn Alloy and Oxygen Vacancy. ACS APPLIED ENERGY MATERIALS[J]. 2021, 4(9): 9258-9266, http://dx.doi.org/10.1021/acsaem.1c01502.
[12] Hua, Kaimin, Liu, Xiaofang, Wei, Baiyin, Shao, Zilong, Deng, Yuchao, Zhong, Liangshu, Wang, Hui, Sun, Yuhan. Chemo- and regioselective hydroformylation of alkenes with CO2/H-2 over a bifunctional catalyst. GREEN CHEMISTRY[J]. 2021, 23(20): 8040-8046, [13] Wei, Baiyin, Liu, Xiaofang, Deng, Yuchao, Hua, Kaimin, Chen, Junjun, Wang, Hui, Sun, Yuhan. Efficient and Stable Co/beta-Mo2C Catalyst for Hydroformylation. ACS CATALYSIS[J]. 2021, 11(23): 14319-14327, http://dx.doi.org/10.1021/acscatal.1c04022.
[14] Zhang, Lei, Wang, Hao, Yang, Chengguang, Li, Xiaopeng, Sun, Jian, Wang, Hui, Gao, Peng, Sun, Yuhan. The rare earth elements modified FeK/Al2O3 catalysts for direct CO2 hydrogenation to liquid hydrocarbons. CATALYSIS TODAY[J]. 2020, 356: 613-621, http://dx.doi.org/10.1016/j.cattod.2019.11.006.
[15] Chen, Xinqing, Qiu, Minghuang, Li, Shenggang, Yang, Chengguang, Shi, Lei, Zhou, Shiju, Yu, Gan, Ge, Lixia, Yu, Xing, Liu, Ziyu, Sun, Nannan, Zhang, Kun, Wang, Hui, Wang, Mouhua, Zhong, Liangshu, Sun, Yuhan. Gamma-Ray Irradiation to Accelerate Crystallization of Mesoporous Zeolites. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2020, 59(28): 11325-11329, http://dx.doi.org/10.1002/anie.202002886.
[16] Dang, Shanshan, Qin, Bin, Yang, Yong, Wang, Hui, Cai, Jun, Han, Yong, Li, Shenggang, Gao, Peng, Sun, Yuhan. Rationally designed indium oxide catalysts for CO2 hydrogenation to methanol with high activity and selectivity. SCIENCE ADVANCES[J]. 2020, 6(25): http://dx.doi.org/10.1126/sciadv.aaz2060.
[17] Zhang, Shunan, Liu, Xiaofang, Shao, Zilong, Wang, Hui, Sun, Yuhan. Direct CO2 hydrogenation to ethanol over supported Co2C catalysts: Studies on support effects and mechanism. JOURNAL OF CATALYSIS[J]. 2020, 382: 86-96, http://dx.doi.org/10.1016/j.jcat.2019.11.038.
[18] An, Yunlei, Lin, Tiejun, Gong, Kun, Wang, Xinxing, Zhong, Liangshu, Wang, Hui, Sun, Yuhan. Tuning the Facet Proportion of Co2C Nanoprisms for Fischer-Tropsch Synthesis to Olefins. CHEMCATCHEM[J]. 2020, 12(6): 1630-1638, http://dx.doi.org/10.1002/cctc.201902273.
[19] Wang, Ting, Yang, Chengguang, Li, Shenggang, Yu, Gan, Liu, Ziyu, Wang, Hui, Gao, Peng, Sun, Yuhan. Solvent-Free Synthesis of Mg-Incorporated Nanocrystalline SAPO-34 Zeolites via Natural Clay for Chloromethane-to-Olefin Conversion. ACS SUSTAINABLE CHEMISTRY & ENGINEERING[J]. 2020, 8(10): 4185-4193, https://www.webofscience.com/wos/woscc/full-record/WOS:000526352300019.
[20] 刘影, 刘晓放, 夏林, 黄超杰, 吴兆萱, 王慧, 孙予罕. 以类水滑石为前驱体的Cu/ZnO/Al2O3催化剂用于COx加氢合成甲醇:CO在反应混合物中的作用(英文). 物理化学学报. 2020, 10-, [21] Lin, Tiejun, Qi, Xingzhen, Wang, Xinxing, Xia, Lin, Wang, Caiqi, Yu, Fei, Wang, Hui, Li, Shenggang, Zhong, Liangshu, Sun, Yuhan. Direct Production of Higher Oxygenates by Syngas Conversion over a Multifunctional Catalyst. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2019, 58(14): 4627-4631, https://www.webofscience.com/wos/woscc/full-record/WOS:000462622700030.
[22] Li, Lin, Zhang, Chen, Chen, Xinqing, Gao, Peng, Sun, Jian, Wang, Hui, Sun, Yuhan. Preparation of Highly Dispersion CuO/MCM-41 Catalysts for CO2 Hydrogenation. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY[J]. 2019, 19(6): 3218-3222, http://www.corc.org.cn/handle/1471x/2164222.
[23] Dai, Yuanyuan, Zhao, Yonghui, Lin, Tiejun, Li, Shenggang, Yu, Fei, An, Yunlei, Wang, Xinxing, Xiao, Kang, Sun, Fanfei, Jiang, Zheng, Lu, Yongwu, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Particle Size Effects of Cobalt Carbide for Fischer-Tropsch to Olefins. ACS CATALYSIS[J]. 2019, 9(2): 798-809, http://dx.doi.org/10.1021/acscatal.8b03631.
[24] 张辰, 廖珮懿, 石志彪, 孙俭, 王慧. “双溶剂”浸渍法制备Cu/ZnO/MCM-41催化剂及其在CO2加氢中的催化性能. 上海大学学报:自然科学版[J]. 2019, 25(1): 109-119, http://www.corc.org.cn/handle/1471x/2163182.
[25] Wang, Xinxing, Lin, Tiejun, Li, Jie, Yu, Fei, Lv, Dong, Qi, Xingzhen, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Direct production of olefins via syngas conversion over Co2C-based catalyst in slurry bed reactor. RSC ADVANCES[J]. 2019, 9(8): 4131-4139, https://www.webofscience.com/wos/woscc/full-record/WOS:000459896700004.
[26] Cui, Xu, Gao, Peng, Li, Shenggang, Yang, Chengguang, Liu, Ziyu, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Selective Production of Aromatics Directly from Carbon Dioxide Hydrogenation. ACS CATALYSIS[J]. 2019, 9(5): 3866-3876, http://dx.doi.org/10.1021/acscatal.9b00640.
[27] Dang, Shanshan, Yang, Haiyan, Gao, Peng, Wang, Hui, Li, Xiaopeng, Wei, Wei, Sun, Yuhan. A review of research progress on heterogeneous catalysts for methanol synthesis from carbon dioxide hydrogenation. CATALYSIS TODAY[J]. 2019, 330: 61-75, http://dx.doi.org/10.1016/j.cattod.2018.04.021.
[28] 石志彪, 杨海艳, 高鹏, 陈新庆, 刘洪江, 钟良枢, 王慧, 魏伟, 孙予罕. 碱金属助剂对CoCu/TiO_2催化剂上二氧化碳加氢合成长链烃的影响. 催化学报[J]. 2018, 39(8): 1294-1302, http://lib.cqvip.com/Qikan/Article/Detail?id=675863124.
[29] Yu, Fei, Lin, Tiejun, Wang, Xinxing, Li, Shenggang, Lu, Yongwu, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Highly selective production of olefins from syngas with modified ASF distribution model. APPLIED CATALYSIS A-GENERAL[J]. 2018, 563: 146-153, http://dx.doi.org/10.1016/j.apcata.2018.07.006.
[30] Zhang, Chen, Liao, Peiyi, Wang, Hui, Sun, Jian, Gao, Peng. Preparation of novel bimetallic CuZn-BTC coordination polymer nanorod for methanol synthesis from CO2 hydrogenation. MATERIALS CHEMISTRY AND PHYSICS[J]. 2018, 215: 211-220, http://www.corc.org.cn/handle/1471x/2173674.
[31] Shi Zhibiao, Yang Haiyan, Gao Peng, Chen Xinqing, Liu Hongjiang, Zhong Liangshu, Wang Hui, Wei Wei, Sun Yuhan. 碱金属助剂对CoCu/TiO_2催化剂上二氧化碳加氢合成长链烃的影响. 催化学报[J]. 2018, 39(8): 1294-1302, http://lib.cqvip.com/Qikan/Article/Detail?id=675863124.
[32] Wang, Xinxing, Chen, Wen, Lin, Tiejun, Li, Jie, Yu, Fei, An, Yunlei, Dai, Yuanyuan, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Effect of the support on cobalt carbide catalysts for sustainable production of olefins from syngas. CHINESE JOURNAL OF CATALYSIS[J]. 2018, 39(12): 1869-1880, http://dx.doi.org/10.1016/S1872-2067(18)63153-5.
[33] An, Yunlei, Zhao, Yonghui, Yu, Fei, Lin, Tiejun, Lu, Yongwu, Li, Shenggang, Li, Zhengjia, Dai, Yuanyuan, Wang, Xinxing, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Morphology control of Co2C nanostructures via the reduction process for direct production of lower olefins from syngas. JOURNAL OF CATALYSIS[J]. 2018, 366: 289-299, http://dx.doi.org/10.1016/j.jcat.2018.03.024.
[34] Yang, Yanzhang, Lin, Tiejun, Qi, Xingzhen, Yu, Fei, An, Yunlei, Li, Zhengjia, Dai, Yuanyuan, Zhong, Liangshu, Wang, Hui, Sun, Yuhan. Direct synthesis of long-chain alcohols from syngas over CoMn catalysts. APPLIED CATALYSIS A-GENERAL[J]. 2018, 549: 179-187, http://dx.doi.org/10.1016/j.apcata.2017.09.037.
[35] Dang, Shanshan, Gao, Peng, Liu, Ziyu, Chen, Xinqing, Yang, Chengguang, Wang, Hui, Zhong, Liangshu, Li, Shenggang, Sun, Yuhan. Role of zirconium in direct CO2 hydrogenation to lower olefins on oxide/zeolite bifunctional catalysts. JOURNAL OF CATALYSIS[J]. 2018, 364: 382-393, http://dx.doi.org/10.1016/j.jcat.2018.06.010.
[36] Shi, Zhibiao, Yang, Haiyan, Gao, Peng, Li, Xiaopeng, Zhong, Liangshu, Wang, Hui, Liu, Hongjiang, Wei, Wei, Sun, Yuhan. Direct conversion of CO2 to long-chain hydrocarbon fuels over K-promoted CoCu/TiO2 catalysts. CATALYSIS TODAY[J]. 2018, 311: 65-73, http://www.corc.org.cn/handle/1471x/2175431.
[37] Yang, Mingfang, Zhang, Chen, Fan, Yonghui, Lin, Tiejun, Chen, Xinqing, Lu, Yongwu, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. ZIF-67-derived Co3O4 micro/nano composite structures for efficient photocatalytic degradation. MATERIALS LETTERS[J]. 2018, 222: 92-95, http://www.corc.org.cn/handle/1471x/2179545.
[38] Wang Xinxing, Chen Wen, Lin Tiejun, Li Jie, Yu Fei, An Yunlei, Dai Yuanyuan, Wang Hui, Zhong Liangshu, Sun Yuhan. 合成气直接制烯烃碳化钴基催化剂的载体效应. 催化学报[J]. 2018, 39(12): 1869-1880, http://lib.cqvip.com/Qikan/Article/Detail?id=7000840830.
[39] 王新星, 陈文, 林铁军, 李杰, 于飞, 安芸蕾, 代元元, 王慧, 钟良枢, 孙予罕. 合成气直接制烯烃碳化钴基催化剂的载体效应. 催化学报[J]. 2018, 39(12): 1869-1880, http://lib.cqvip.com/Qikan/Article/Detail?id=7000840830.
[40] Gao, Peng, Dang, Shanshan, Cui, Xu, Wang, Hui, Zhong, Liangshu, Wei, Wei, Sun, Yuhan. Direct conversion of CO2 into value-added C2+hydrocarbons with high selectivity. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2018, 255: http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000435539900293.
[41] Fan, Yonghui, Li, Shenggang, Bao, Jingxian, Shi, Lei, Yang, Yanzhang, Yu, Fei, Gao, Peng, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Hydrofunctionalization of olefins to value-added chemicals via photocatalytic coupling. GREEN CHEMISTRY[J]. 2018, 20(15): 3450-3456, https://www.webofscience.com/wos/woscc/full-record/WOS:000441581600006.
[42] Gao, Peng, Dang, Shanshan, Li, Shenggang, Bu, Xianni, Liu, Ziyu, Qiu, Minghuang, Yang, Chengguang, Wang, Hui, Zhong, Liangshu, Han, Yong, Liu, Qiang, Wei, Wei, Sun, Yuhan. Direct Production of Lower Olefins from CO2 Conversion via Bifunctional Catalysis. ACS CATALYSIS[J]. 2018, 8(1): 571-578, http://dx.doi.org/10.1021/acscatal.7b02649.
[43] Shi, Zhibiao, Gao, Peng, Dang, Shanshan, Zhong, Liangshu, Wang, Hui, Sun, Yuhan. Selective formation of long-chain hydrocarbons from CO2 hydrogenation over TiO2 supported Co-Cu-K catalysts. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2017, 253: [44] Xiao, Shuo, Zhang, Yanfei, Gao, Peng, Zhong, Liangshu, Li, Xiaopeng, Zhang, Zhongzheng, Wang, Hui, Wei, Wei, Sun, Yuhan. Highly efficient Cu-based catalysts via hydrotalcite-like precursors for CO2 hydrogenation to methanol. CATALYSIS TODAY[J]. 2017, 281: 327-336, http://www.corc.org.cn/handle/1471x/2193466.
[45] Wang, Hui, Zhang, Chen, Gao, Peng, Sun, Yuhan. Hydrogenation of CO2 to methanol using Cu-based catalysts derived from bimetallic metal-organic framework precursor. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2017, 253: https://www.webofscience.com/wos/woscc/full-record/WOS:000430568502494.
[46] Pei-yi LIAO, Chen ZHANG, Li-jun ZHANG, Yan-zhang YANG, Liang-shu ZHONG, Hui WANG, Yu-han SUN. Effect of promoter and CO2 content in the feed on the performance of CuFeZr catalyst in the synthesis of higher alcohol from syngas. JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY. 2017, 45(5): 547-555, http://dx.doi.org/10.1016/S1872-5813(17)30029-4.
[47] Gao, Peng, Li, Shenggang, Bu, Xianni, Dang, Shanshan, Liu, Ziyu, Wang, Hui, Zhong, Liangshu, Qiu, Minghuang, Yang, Chengguang, Cai, Jun, Wei, Wei, Sun, Yuhan. Direct conversion of CO2 into liquid fuels with high selectivity over a bifunctional catalyst. NATURE CHEMISTRY[J]. 2017, 9(10): 1019-1024, http://dx.doi.org/10.1038/NCHEM.2794.
[48] Wang, Xiao, Wang, Hui, Sun, Yuhan. Synthesis of Acrylic Acid Derivatives from CO2 and Ethylene. CHEMnull. 2017, 3(2): 211-228, http://dx.doi.org/10.1016/j.chempr.2017.07.006.
[49] Yuanyuan Dai, Fei Yu, Zhengjia Li, Yunlei An, Tiejun Lin, Yanzhang Yang, Liangshu Zhong, Hui wang, Yuhan Sun. Effect of Sodium on the Structure-Performance Relationship of Co/SiO2 for Fischer-Tropsch Synthesis. CHINESE JOURNAL OF CHEMISTRY[J]. 2017, 35(6): 918-926, http://lib.cqvip.com/Qikan/Article/Detail?id=673296505.
[50] Liao Peiyi, Zhang Chen, Zhang Lijun, Yang Yanzhang, Zhong Liangshu, Guo Xiaoya, Wang Hui, Sun Yuhan. Cu含量对以水滑石为前驱体的Cu/Co/Mn/Al催化剂高级醇合成性能的影响. 物理化学学报[J]. 2017, 33(8): 1672-1680, http://lib.cqvip.com/Qikan/Article/Detail?id=672770936.
[51] Yang, Haiyan, Zhang, Chen, Gao, Peng, Wang, Hui, Li, Xiaopeng, Zhong, Liangshu, Wei, Wei, Sun, Yuhan. A review of the catalytic hydrogenation of carbon dioxide into value-added hydrocarbons. CATALYSIS SCIENCE & TECHNOLOGYnull. 2017, 7(20): 4580-4598, http://dx.doi.org/10.1039/c7cy01403a.
[52] Deng, Yuchao, Wei, XiaoJing, Wang, Hui, Sun, Yuhan, Noel, Timothy, Wang, Xiao. Disulfide-Catalyzed Visible-Light-Mediated Oxidative Cleavage of C=C Bonds and Evidence of an Olefin-Disulfide Charge-Transfer Complex. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2017, 56(3): 832-836, https://www.webofscience.com/wos/woscc/full-record/WOS:000394996900028.
[53] Li, Zhenjia, Lin, Tiejun, Yu, Fei, An, Yunlei, Dai, Yuanyuan, Li, Shenggang, Zhong, Liangshu, Wang, Hui, Gao, Peng, Sun, Yuhan, He, Mingyuan. Mechanism of the Mn Promoter via CoMn Spinel for Morphology Control: Formation of Co2C Nanoprisms for Fischer-Tropsch to Olefins Reaction. ACS CATALYSIS[J]. 2017, 7(12): 8023-8032, http://www.corc.org.cn/handle/1471x/2182819.
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[77] Gao, Peng, Wang, Hui, Xiao, Shuo, Zhang, Yanfei, Wei, Wei, Sun, Yuhan. Hydrotalcite-like compounds derived highly effective Cu-based catalysts for CO2 hydrogenation to methanol. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETYnull. 2015, 250: https://www.webofscience.com/wos/woscc/full-record/WOS:000432475502016.
[78] Gao, Peng, Xie, Rongyong, Wang, Hui, Zhong, Liangshu, Xia, Lin, Zhang, Zhongzheng, Wei, Wei, Sun, Yuhan. Cu/Zn/Al/Zr catalysts via phase-pure hydrotalcite-like compounds for methanol synthesis from carbon dioxide. JOURNAL OF CO2 UTILIZATION[J]. 2015, 11: 41-48, http://dx.doi.org/10.1016/j.jcou.2014.12.008.
[79] 王慧. Recent advances in the catalytic conversion of CO2 to value added compounds. Science China Chemistry. 2015, [80] Xie, Rongyong, Wang, Hui, Gao, Peng, Xia, Lin, Zhang, Zhongzheng, Zhao, Tiejun, Sun, Yuhan. Core@shell Co3O4@C-m-SiO2 catalysts with inert C modified mesoporous channel for desired middle distillate. APPLIED CATALYSIS A-GENERAL[J]. 2015, 492: 93-99, http://dx.doi.org/10.1016/j.apcata.2014.12.023.
[81] Yang, Yanzhang, Wang, Lei, Xiao, Kang, Zhao, Tiejun, Wang, Hui, Zhong, Liangshu, Sun, Yuhan. Elucidation of reaction network of higher alcohol synthesis over modified FT catalysts by probe molecule experiments. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2015, 5(8): 4224-4232, http://dx.doi.org/10.1039/c5cy00641d.
[82] Gao, Peng, Zhong, Liangshu, Zhang, Lina, Wang, Hui, Zhao, Ning, Wei, Wei, Sun, Yuhan. Yttrium oxide modified Cu/ZnO/Al2O3 catalysts via hydrotalcite-like precursors for CO2 hydrogenation to methanol. CATALYSISSCIENCETECHNOLOGY[J]. 2015, 5(9): 4365-4377, http://dx.doi.org/10.1039/c5cy00372e.
[83] Huang, Chengqiang, Zhang, Qi, Wang, Hui, Feng, Songlin. A Low Power and Low Complexity Automatic White Balance Algorithm for AMOLED Driving Using Histogram Matching. JOURNAL OF DISPLAY TECHNOLOGY[J]. 2015, 11(1): 53-59, https://www.webofscience.com/wos/woscc/full-record/WOS:000349892400008.
[84] Zhang, Zhongzheng, Zhu, Chenming, Sun, Nannan, Wang, Hui, Tang, Zhiyong, Wei, Wei, Sun, Yuhan. One-Pot Solvent-Free Synthesis of Nitrogen and Magnesium Codoped Mesoporous Carbon Composites for CO2 Capture. JOURNAL OF PHYSICAL CHEMISTRY C[J]. 2015, 119(17): 9302-9310, https://www.webofscience.com/wos/woscc/full-record/WOS:000353930700035.
[85] 张中正, 王慧, 魏伟, 孙予罕. PEI改性介孔分子筛KIT-6对CO2吸附性能的研究. 高校化学工程学报[J]. 2014, 28(1): 171-176, http://lib.cqvip.com/Qikan/Article/Detail?id=49525040.
[86] Xie, Rongyong, Wang, Chunling, Xia, Lin, Wang, Hui, Zhao, Tiejun, Sun, Yuhan. Controlled Preparation of Co3O4@porous-SiO2 Nanocomposites for Fischer-Tropsch Synthesis. CATALYSIS LETTERS[J]. 2014, 144(3): 516-523, https://www.webofscience.com/wos/woscc/full-record/WOS:000331045900017.
[87] Gao Peng, Li Feng, Zhao Ning, Wang Hui, Wei Wei, Sun YuHan. Preparation of Cu/Zn/Al/(Zr)/(Y) Catalysts from Hydrotalcite-Like Precursors and Their Catalytic Performance for the Hydrogenation of CO2 to Methanol. ACTA PHYSICO-CHIMICA SINICA[J]. 2014, 30(6): 1155-1162, https://www.webofscience.com/wos/woscc/full-record/WOS:000337251700019.
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[89] 王慧. 以类水滑石为前躯体的Cu/Zn/Al/(Zr)/(Y)催化剂制备及其催化CO2加氢合成甲醇性能. 物理化学学报. 2014, [90] 高鹏, 李枫, 赵宁, 王慧, 魏伟, 孙予罕. 以类水滑石为前驱体的Cu/Zn/AI/(Zr)/(Y)催化剂制备及其催化CO_2加氢合成甲醇的性能. 物理化学学报[J]. 2014, 30(6): 1155-1162, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=5161739&detailType=1.
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科研活动

   
科研项目
( 1 ) 水泥窑温度场及流场的数值模拟, 负责人, 国家任务, 2012-01--2014-12
( 2 ) 二氧化碳加氢制甲醇过程研究, 负责人, 国家任务, 2012-01--2016-12
( 3 ) 高效二氧化碳吸附材料研究, 负责人, 国家任务, 2010-01--2013-12
( 4 ) CO2加氢合成甲醇及甲醇制芳烃反应器关键技术研究与应用, 负责人, 地方任务, 2015-01--2017-12
( 5 ) 中科院青年促进会, 负责人, 国家任务, 2015-01--2019-12
( 6 ) Preparation of CuO@Si02@Co-Mn-AI layered double hydroxide core-shell, 负责人, 企业委托, 2016-09--2018-08
( 7 ) 合成气直接制高碳混合醇催化剂双活性位的设计及构效关系研究, 负责人, 国家任务, 2017-01--2021-12
( 8 ) 煤经合成气直接制乙醇, 负责人, 国家任务, 2017-07--2021-06
( 9 ) 二氧化碳加氢合成燃料和化学品, 负责人, 中国科学院计划, 2018-01--2022-12
参与会议
(1)“CO2 HYDROGENATION TO METHANOL OVER Cu/Zn/Al/(Zr)/(Y) CATALYSTS DERIVED FROM HYDROTALCITE-LIKE PRECURSORS   Hui Wang   2014-10-06
(2)The Performance of Cu/Zn/Al/Zr Catalysts for CO2 Hydrogenation to Methanol   Hui Wang   2013-07-22

指导学生

已指导学生

杨海艳  硕士研究生  085216-化学工程  

代元元  博士研究生  081701-化学工程  

王婷  博士研究生  070304-物理化学  

戴坤宇  硕士研究生  085216-化学工程  

张书南  博士研究生  081701-化学工程  

刘影  硕士研究生  085216-化学工程  

邵自龙  硕士研究生  085216-化学工程  

华凯敏  博士研究生  081701-化学工程  

崔勖  博士研究生  081701-化学工程  

王新星  博士研究生  070304-物理化学  

现指导学生

黄超杰  博士研究生  081701-化学工程  

邵自龙  博士研究生  081701-化学工程  

卢俊文  硕士研究生  085600-材料与化工  

李琳  博士研究生  070304-物理化学  

陈俊俊  博士研究生  070304-物理化学