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姓 名 杨应举 性 别
职 称 讲师 毕业学校 伟德国际1946源自英国
个人主页 http://sklcc.hust.edu.cn/info/1031/2491.htm
联系方式 18064080583
邮 箱 yangyingju@hust.edu.cn
通讯地址 湖北省武汉市洪山区珞瑜路1037号伟德国际1946源自英国煤燃烧国家重点实验室
个人资料简介
杨应举,工学博士,入选国家博新计划、中国科协优秀中外青年交流计划,优秀共产党员。2018.6于伟德国际1946源自英国获得工学博士学位;2018.7-2021.7在伟德国际1946源自英国煤燃烧国家重点实验室从事博士后研究工作。主要从事CO2催化转化利用、氢能绿色制取、大规模储能、燃烧污染物控制机理与化学反应动力学等研究。主持了博士后创新人才支持计划(博新计划)项目、中国科协优秀中外青年交流计划项目、国家自然科学青年科学基金项目、中国博士后科学基金面上项目(一等资助)、湖北省博士后科技活动项目择优资助项目(一等资助),并参与了国家自然科学基金面上项目、国家重点研发计划项目、国家重点基础研究发展计划(973计划)等多项国家级科研项目。
以第一作者/通讯作者身份在国际权威期刊上已发表SCI论文29篇,包括燃烧领域顶级期刊Progress in Energy and Combustion Science(IF=29.39)、Combustion and Flame(3篇)、Proceedings of the Combustion Institute(3篇),环境领域顶级期刊Environmental Science & Technology,以及Journal of Materials Chemistry A(IF= 12.73)、Chemical Engineering Journal(5篇,IF=13.27)、Journal of Hazardous Materials(5篇,IF= 10.58)等,其中ESI高被引论文4篇(2篇已持续三年以上,1篇已持续一年以上)。SCI-H指数为19,SCI引用1050余次,授权发明专利4项。连续3届在燃烧领域最具影响力的国际燃烧会议(36、37、38届)上做口头报告,获得2020年中国工程热物理学会燃烧学年会优秀论文奖(10篇/1500余人参会)。担任Environmental Science & Technology、Journal of Hazardous Materials、Fuel等10余个SCI权威期刊的审稿人。

教育及工作经历

    2021.08-至今    伟德国际1946源自英国,伟德国际1946官方网,讲师
    2018.07-2021.07  伟德国际1946源自英国,伟德国际1946官方网,博士后
    2015.09-2018.06  伟德国际1946源自英国,伟德国际1946官方网,博士
    2013.09-2015.06  伟德国际1946源自英国,伟德国际1946官方网,硕士
    2009.09-2013.06  南京工业大学,伟德国际1946官方网,学士

研究方向

    1.    二氧化碳热/电催化转化利用;
    2.    氢能绿色制取;
    3.    大规模储能;
    4.    碳基能源转化利用;
    5.    燃烧污染物控制机理与化学反应动力学;

科研项目

    1.    中国博士后创新人才支持计划项目,燃煤电厂汞多相催化反应机理与动力学研究(BX20180108),2018/07-2020/07,60万元。
    2.    国家自然科学青年科学基金项目,锰基尖晶石协同脱除燃煤NOx/Hg0/VOCs的反应机理和动力学研究(52006083),2021/01-2023/12,24万元。
    3.    中国博士后科学基金面上项目(一等资助),燃煤烟气中耦合催化反应-传质的汞多相反应动力学研究(2018M640697),2019/01-2020/12,8万元。
    4.    中国科协优秀中外青年交流项目,二氧化碳热/电催化还原,2021/01-2021/12,5万元。
    5.    湖北省博士后科技活动项目择优资助项目(一等资助),燃煤烟气中耦合催化反应-质量扩散的汞形态转化动力学研究(G63),2019/01-2020/12,3万元。
    6.    伟德国际1946源自英国创新创业基金(一等资助),燃煤烟气中新型可再生循环利用高效汞吸附剂的设计与开发,2017/01-2017/12,1.5万元。

代表性论文与专利

    [1]    Yingju Yang, Jing Liu*, Zhen Wang. Reaction mechanisms and chemical kinetics of mercury transformation during coal combustion. Progress in Energy and Combustion Science, 2020, 79: 100844. (IF=28.938, 能源领域顶级期刊)
    [2]    Yingju Yang, Jing Liu*, et al. FeS2-anchored transition metal single atoms for high-efficient overall water splitting: A DFT computational screening study. Journal of Materials Chemistry A, 2021, 9: 2438–2447. (IF=11.301, 一区)
    [3]    Yingju Yang, Jing Liu*, et al. Kinetic study of heterogeneous mercury oxidation by HCl on fly ash surface in coal-fired flue gas. Combustion and Flame, 2016, 168: 1–9. (IF=4.57, 燃烧领域顶级期刊)
    [4]    Yingju Yang, Jing Liu*, et al. Comprehensive Hg/Br reaction chemistry over Fe2O3 surface during coal combustion. Combustion and Flame, 2018, 196: 210–222. (IF=4.57, 燃烧领域顶级期刊)
    [5]    Yingju Yang, Jing Liu*, et al. CO2-mediated sulfur evolution chemistry of pyrite oxidation during oxy-fuel combustion. Combustion and Flame, 2020, 218: 75–83. (IF=4.57, 燃烧领域顶级期刊)
    [6]    Yingju Yang, Jing Liu*, et al. Homogeneous and heterogeneous reaction mechanisms and kinetics of mercury oxidation in coal-fired flue gas with bromine addition. Proceedings of the Combustion Institute, 2017, 36(3): 4039–4049. (IF=5.627, 燃烧领域顶级期刊)
    [7]    Yingju Yang, Jing Liu*, et al. Comprehensive evolution mechanism of SOx formation during pyrite oxidation. Proceedings of the Combustion Institute, 2019, 37(3): 2809–2819. (IF=5.627, 燃烧领域顶级期刊)
    [8]    Yingju Yang, Jing Liu*, et al. Reaction mechanism of elemental mercury oxidation to HgSO4 during SO2/SO3 conversion over V2O5/TiO2 catalyst. Proceedings of the Combustion Institute, 2021, 38(3): doi: 10.1016/j.proci.2020.10.007. (IF=5.627, 燃烧领域顶级期刊)
    [9]    Yingju Yang, Sen Miao, Jing Liu*, et al. Cost-Effective Manganese Ore Sorbent for Elemental Mercury Removal from Flue Gas. Environmental Science & Technology, 2019, 53(16), 9957–9965. (IF=7.864, 环境领域顶级期刊)
    [10]    Yingju Yang, Jing Liu*, et al. Mechanistic studies of mercury adsorption and oxidation by oxygen over spinel-type MnFe2O4. Journal of Hazardous Materials, 2017, 321: 154–161. (IF=9.038, ESI持续高被引(三年), 一区)
    [11]    Yingju Yang, Jing Liu*, et al. Molecular-level insights into mercury removal mechanism by pyrite. Journal of Hazardous Materials, 2018, 344: 104–112. (IF=9.038, ESI持续高被引(三年), 一区)
    [12]    Yingju Yang, Jing Liu*, et al. Reaction mechanism for NH3-SCR of NOx over CuMn2O4 catalyst. Chemical Engineering Journal, 2019, 361: 578–587. (IF=10.652, ESI持续高被引(一年), 一区)
    [13]    Yingju Yang, Jing Liu*, et al. Density functional theory study on the heterogeneous reaction between Hg0 and HCl over spinel-type MnFe2O4. Chemical Engineering Journal, 2017, 308: 897–903. (IF=10.652, 一区)
    [14]    Yingju Yang, Jing Liu*, et al. Experimental and theoretical studies of mercury oxidation over CeO2-WO3/TiO2 catalysts in coal-fired flue gas. Chemical Engineering Journal, 2017, 317: 758–765. (IF=10.652, 一区)
    [15]    Yingju Yang, Jing Liu*, et al. Interface reaction activity of recyclable and regenerable Cu-Mn spinel-type sorbent for Hg0 capture from flue gas. Chemical Engineering Journal, 2019, 372: 697–707. (IF=10.652, 一区)
    [16]    Yingju Yang, Jing Liu*, et al. Two-dimensional pyrite supported transition metal for highly-efficient electrochemical CO2 reduction: A theoretical screening study. Chemical Engineering Journal, 2021, 424: 130541. (IF=10.652, 一区)
    [17]    Yingju Yang, Jing Liu*, et al. A complete catalytic reaction scheme for Hg0 oxidation by HCl over RuO2/TiO2 catalyst. Journal of Hazardous Materials, 2019, 373: 660–670. (IF=9.038, 一区)
    [18]    Yingju Yang, Jing Liu*, et al. Charge-distribution modulation of copper ferrite spinel-type catalysts for highly efficient Hg0 oxidation. Journal of Hazardous Materials, 2021, 402: 123576. (IF=9.038, 一区)
    [19]    Yingju Yang, Jing Liu*, et al. Reaction mechanism of CO2 methanation over Rh/TiO2 catalyst. Fuel, 2020, 276: 118093. (IF=5.578, 二区)
    [20]    Yingju Yang, Jing Liu*, et al. Heterogeneous reaction kinetics of mercury oxidation by HCl over Fe2O3 surface. Fuel Processing Technology, 2017, 159: 266–271. (IF=4.982, 二区)
    [21]    Yingju Yang, Jing Liu*, et al. A skeletal reaction scheme for selective catalytic reduction of NOx with NH3 over CeO2/TiO2 catalyst. Fuel Processing Technology, 2018, 174: 17–25. (IF=4.982, 二区)
    [22]    Yingju Yang, Jing Liu*, et al. Nature of Active Sites and an Oxygen-Assisted Reaction Mechanism for Mercury Capture by Spinel-Type CuMn2O4 Sorbents. Energy & Fuels, 2019, 33(9): 8920–8926. (IF=3.421, 二区)
    [23]    Yingju Yang, Jing Liu*, et al. Metal–Metal Interactions of Ternary Spinel for Efficient NH3 Selective Catalytic Reduction of NOx at a Low Temperature. Energy & Fuels, 2020, 34(12): 15424–15432. (IF=3.421, 二区)
    [24]    Yingju Yang, Jinchuan Zhang, Jing Liu*, Dawei Wu, Bo Xiong, Yuchen Yang, Zhixuan Hua. Nickel Nanoparticles Encapsulated in SSZ-13 Cage for Highly Efficient CO2 Hydrogenation. Energy & Fuels, 2021, 35(16): 13240–13248. (IF=3.421, 二区)
    [25]    Yingju Yang, Zhen Wang, Sen Miao, Jing Liu*, et al. Mechanistic Landscape of HCl-Mediated Hg0 Capture by Magnetite. The Journal of Physical Chemistry C, 2019, 123(50): 30434–30442. (IF=4.189, 二区)
    [26]    Zhen Wang, Yingju Yang*, Jing Liu*, et al. Experimental and Theoretical Insights into the Effect of Syngas Components on Hg0 Removal over CoMn2O4 Sorbent. Industrial & Engineering Chemistry Research, 2020, 59(16): 8078-8085. (IF=3.573, 二区)
    [27]    Dawei Wu, Yingju Yang*, Jing Liu*, et al. Plasma-Modified N/O-Doped Porous Carbon for CO2 Capture: An Experimental and Theoretical Study. Energy & Fuels, 2020, 34 (5): 6077-6084. (IF=3.421, 二区)
    [28]    Jinchuan Zhang, Yingju Yang(共同一作), Jing Liu*, et al. Mechanistic understanding of CO2 hydrogenation to methane over Ni/CeO2 catalyst. Applied Surface Science, 2021, 558: 149866. (IF=6.182, 二区)
    [29]    Junyan Ding, Jing Liu*, Yingju Yang*, Liming Zhao, Yingni Yu. Understanding A-site tuning effect on formaldehyde catalytic oxidation over La-Mn perovskite catalysts. Journal of Hazardous Materials, 2022, 422: 126931. (IF=9.038, 一区)
    [30]    杨应举,赵利鹏,刘晶*,等. 溴化物对燃煤烟气中汞的均相与非均相氧化动力学研究.工程热物理学报, 2015, 36(9): 2040–2044. (EI收录)
    [31]    杨应举,刘晶*,等. SO2对CuMn2O4尖晶石脱汞性能的影响机理. 工程热物理学报,2021,已录用.
    [32]    杨应举,张艾嘉,刘晶*,等. NO对铜-锰尖晶石脱汞性能的影响机理. 燃料化学学报, 2020, 48(12): 1–5. (EI收录)
    [33]    杨应举,屈文麒,刘晶*,等. 燃煤烟气中Hg/Cl均相与非均相氧化机理. 燃烧科学与技术, 2017, 23(1): 10–14.
    [34]    杨应举,张保华,刘晶*,等. 可再生循环利用CuxMn(3-x)O4尖晶石吸附剂脱汞实验研究. 燃烧科学与技术, 2017, 23(6): 511–515.

    会议论文:
    [1]    Yingju Yang, Jing Liu*, et al. Homogeneous and heterogeneous reaction mechanisms and kinetics of mercury oxidation in coal-fired flue gas with bromine addition. The 36th International Symposium on Combustion, Seoul, Korea, July 31–August 5, 2016.
    [2]    Yingju Yang, Jing Liu*, et al. Comprehensive evolution mechanism and reaction kinetics of SOx formation during pyrite oxidation. The 37th International Symposium on Combustion, Dublin, Ireland, July 29–August 3, 2018.
    [3]    Yingju Yang, Jing Liu*, et al. Reaction mechanism of elemental mercury oxidation to HgSO4 during SO2/SO3 conversion over V2O5/TiO2 catalyst. The 38th International Symposium on Combustion, Adelaide, Australia, January 24–29, 2021.
    [4]    Yingju Yang, Jing Liu*, et al. Heterogeneous evolution mechanism of SO2 formation during CO2-mediated pyrite oxidation. The 12th Asia-Pacific Conference on Combustion, Fukuoka, Japan, July 1–5, 2019.
    [5]    Yingju Yang, Jing Liu*, et al. Recyclable and Regenerable Copper-Manganese Spinel-Type Sorbent for Mercury Capture from Flue Gas. The 14th International Conference on Mercury as a Global Pollutant, Krakow, Poland, September 8-13, 2019.
    [6]    Yingju Yang, Jing Liu*, et al. Mercury adsorption and oxidation over CeO2-based catalysts in coal-fired flue gas by experimental and theoretical studies. The 12th International Conference on Mercury as a Global Pollutant, Jeju, Korea, June 14–19, 2015.
    [7]    Yingju Yang, Jing Liu*. Active Sites and Reaction Mechanism of CO2 Conversion into CH4 over Rh-supported Catalyst. The 1st International Green and Sustainable Chemistry Conference, Beijing, China, October 17–19, 2019.
    [8]    Yingju Yang, Jing Liu*, et al. Reaction Scheme of Low-Temperature CO2 Methanation over Rh/TiO2 Catalyst. The 1st National Conference on CO2 Utilization, Tianjin, China, November 8–10, 2019.
    [9]    Yingju Yang, Jing Liu*, et al, Kinetic study of heterogeneous mercury oxidation on hematite (Fe2O3) surface in coal-fired flue gas. The 10th Asia-Pacific Conference on Combustion, Beijing, China, July 19–22, 2015.
    [10]    Yingju Yang, Jing Liu*, et al. Experimental and kinetic studies of mercury oxidation by HCl over Fe2O3 within fly ash. The 11th China-Korea Clean Energy Workshop, Nanjing, China, September 20–23, 2016.
    [11]    Yingju Yang, Jing Liu*, et al. Recyclable and regenerable Cu-Mn spinel-type sorbent for mercury removal from coal-fired flue gas. 10th International Conference on Environmental Catalysis, Tianjin, China, September 22-26, 2018.
    [12]    Jing Liu*, Yingju Yang (oral presenter), et al. Low-cost manganese mineral sorbents for mercury removal from coal-fired flue gas. The 14th Mercury and Multi-Pollutant Emission from Coal Workshop, Hanoi, Vietnam, October 28–31, 2019.
    [13]    Yingju Yang, Jing Liu*, Bo Xiong, Yuchen Yang. Transition metal single atoms anchored on two-dimensional pyrite for CO2 electroreduction. The 2nd International Conference on Energy and Environment, Xuzhou, China, July 23-25, 2021.
    [14]    杨应举,刘晶*,等. SO2对CuMn2O4尖晶石脱汞性能的影响机理. 中国工程热物理年会燃烧学学术会议,2020.11.12-15,厦门. (优秀论文奖)
    [15]    杨应举. 燃煤污染物形成与控制的非均相反应机理研究. 第五届全国青年燃烧学术会议,2019.4.12-14,北京. (分会主题报告)
    [16]    杨应举,刘晶*,等. 煤燃烧过程中FeS2氧化形成SOx的演化机理. 中国化学会第31届学术年会燃烧化学分会,2018.5.5-8,杭州. (邀请报告)
    [17]    杨应举,刘晶*,等. 燃烧中汞与溴化物在Fe2O3表面的非均相反应机理和动力学研究. 第二届全国燃烧化学学术会议,2017.5.19-22,大连. (邀请报告)
    [18]    杨应举,赵利鹏,刘晶*,等. 溴化物对燃煤烟气中汞的均相与非均相氧化动力学研究. 中国工程热物理年会燃烧学学术会议,2014.10.31-11.3,西安.
    [19]    杨应举,屈文麒,刘晶*,等. 燃煤烟气中Hg/Cl均相与非均相氧化机理研究. 中国工程热物理年会燃烧学学术会议,2015.10.23-25,北京.
    [20]    杨应举,刘晶*,等. 燃煤烟气中汞的均相与非均相氧化机理研究. 第一届全国燃烧化学学术会议,2015.5.22-25,成都.
    [21]    杨应举,刘晶*,等. 可再生循环利用CuxMn(3-x)O4尖晶石吸附剂脱汞实验研究. 中国工程热物理年会燃烧学学术会议,2016.10.21-23,马鞍山.
    [22]    杨应举,刘晶*,等. CuMn2O4催化剂表面上NOx选择性催化还原的界面反应动力学. 第十五届全国化学动力学会议,2017.8.18-22,南京.
    [23]    杨应举,刘晶*,等. CuxFe3-xO4尖晶石对燃煤烟气汞催化氧化的实验和动力学研究. 第十八届全国催化学术会议,2017.10.16-20,天津.
    [24]    杨应举,刘晶*,等. Rh/TiO2催化剂催化CO2加氢制取甲烷的反应机理研究. 中国工程热物理年会燃烧学学术会议,2019.10.24-27,天津.
    [25]    杨应举,刘晶*,等. 过渡金属单原子掺杂FeS2材料的氢演化反应性能研究. 中国化学会第32届学术年会纳米催化分会,2021.4.19-22,珠海.
    [26]    杨应举,刘晶*,等. 过渡金属修饰二维FeS2表面增强二氧化碳电催化还原活性. 中国化学会2021电催化与电合成国际研讨会,2021.4.9-11,福州.

    发明专利:
    [1]    刘晶,杨应举,等. 一种可再生循环利用的汞吸附剂及其制备与再生方法.专利号:ZL201710873847.4
    [2]    杨应举,刘晶,严旭忱,熊勃,华芷萱. 一种磁性富铁组分负载镍的高效催化剂及其制备方法与应用. 专利号:202110956770.3
    [3]    刘晶,张锦川,杨应举. 一种镍负载在铁酸铜尖晶石表面的催化剂及其制备与应用.专利号:ZL201910794871.8
    [4]    刘晶,余颖妮,杨应举. 一种活化的ZnxIn(3-x)S4及其制备方法与作为汞吸附剂的应用.专利号:ZL201910681762.5

所获荣誉和奖励

    1.    入选国家博新计划(中国博士后创新人才支持计划),2018年;
    2.    入选中国科协优秀中外青年交流计划,2020年;
    3.    获得中国工程热物理学会燃烧学年会优秀论文奖,2020年;
    4.    获得SCI权威期刊Environmental Pollution的Outstanding Contribution Award奖,2018年;
    5.    获得“优秀共产党员”称号,2020年;
    6.    获得伟德国际1946源自英国新冠肺炎疫情防控贡献奖,2020年;
    7.    获得伟德国际1946源自英国创新创业项目优秀奖,2017年;
    8.    获得国家奖学金,2017年。