个人简介
刘 爽 ,男, 博士, 教授 , 博士生导师
中国科协第四届“ 青年人才托举工程 ” 入选者
山东省 “ 高等学校青创团队 ”负责人
中国海洋大学“ 五四青年奖章 ”获得者
学习与工作经历
2015/7-至今 ,中国海洋大学,材料科学与工程学院, 讲师、副教授、教授
2018/11-2019/11 ,美国哥伦比亚大学,化工系, 访问学者 (合作者:陈经广)
2010/8-2015/7 ,清华大学,材料学院, 博士 (导师:翁端、吴晓东)
2006/9-2010/7 ,清华大学,材料系, 学士
研究方向与学术成果
本课题组致力于用催化手段解决大气污染等环境问题,主要研究方向包括:
( 1 )新型纳米级催化材料设计
( 2 ) 汽车 尾气 与工业烟气 催化净化
( 3 )外场(等离子体、电场)辅助催化转化
迄今在 ACS Catalysis × 6 、 Applied Catalysis B: Environmental ×7 、 Journal of Catalysis ×3 等催化领域权威期刊发表 SCI 论文 5 0 余篇,其中 2 篇入选 ESI 高被引论文,授权多项国家发明专利。 作为第 1 完成人获稀土科学技术二等奖(适用于汽油车尾气碳烟燃烧的 CeO 2 基催化剂理性设计),出版独著《图说汽车尾气净化技术》(化学工业出版社)。
发明专利
( 5 ) 刘爽 , 李洪飞 , 柳伟 , 一种用作汽车尾气净化的复合氧化物催化剂及其制备方法 , 专利申请号 : 202210483078.8
( 4 ) 刘爽 , 梁瀚颖 , 柳伟 , 一种碳烟脱除催化剂及其制备方法和应用 , 专利号 : ZL 202010166723.4
( 3 ) 刘爽 , 吴晓东 , 翁端 , 冉锐 , 一种具有可控酸性的核壳型铂基催化剂的制备方法及应用 , 专利号 : ZL 201611114425.0
( 2 ) 吴晓东 , 刘爽 , 翁端 , 冉锐 , 一种分子筛负载铂基贵金属碳烟脱除催化剂及其制备方法 , 专利号 : ZL 201310074906.3
( 1 ) 吴晓东 , 刘爽 , 翁端 , 一种镁改性铂基贵金属碳烟脱除催化剂及制备方法 , 专利授权号 : ZL 201110106987.1
主持科研项目
( 17 ) 202 4 -202 5 , 钢铁研究总院有限公司 (横向课题) , 稀土新材料产业情况调研 , 2Y2Y20230095
( 16 ) 2022-2024 , 山东省自然科学基金 ,大气污染物催化治理, ZR2021YQ14
( 15 ) 2022-2024 , 山东省 重点研发计划( 科技型中小企业创新能力提升工程 ) ,生物质锅炉烟气多污染物协同催化脱除超低排放技术研究与推广,2022TSGC1345
( 14 ) 2022-2023 , 国家能源集团合作项目(横向课题) ,缺陷型催化剂在 VOCs 催化氧化领域的结构构造与反应机理研究,NICE_RD_2022_097
( 13 ) 2022-2022 , 国家能源集团合作项目(横向课题) ,贵金属对烷烯烃不同催化机理研究, NICE_RD_2022_014
( 12 ) 2021-2024 , 国家自然科学基金(面上项目) ,高效铈基催化剂结合低温等离子体用于新工况下碳烟脱除研究, 22076176
( 11 ) 2021-2024 , 中国海洋大学优秀青年科技人才培育计划 ,大气污染物催化净化, 202141008
( 10 ) 2020-2022 , 山东省高等学校青创科技计划 ,多功能核壳材料用于机动车尾气污染物催化净化, 2019KJD001
( 9 ) 2018-2020 , 第四届青年人才托举项目 , CeO 2 碳烟氧化催化剂探究, 2018QNRC001
( 8 ) 2018-2020 , 国家自然科学基金(青年基金) ,载银 Fe 2 O 3 @CeO 2 核壳结构的构建及其碳烟催化氧化机理研究,51702304
( 7 ) 2017-2019 , 山东省自然科学基金(博士基金) ,载银铁 - 铈氧化物核壳结构的构建及其碳烟催化氧化机理研究, ZR2017BEM006
( 6 ) 2018-2019 , 青岛市源头创新计划 ,核壳型酸性铂基催化剂在飞行器机内及尾气净化中的应用, 18-2-2-2-jch
( 5 ) 2017-2018 , 第十批中国博士后特别资助 ,铁 - 银 - 铈氧化物核壳结构的构建及其碳烟氧化机理研究, 2017T100516
( 4 ) 2016-2018 , 山东省博后创新项目 ,核壳型酸性铂基材料的制备及其在 PM2.5 催化净化中的应用, 201601009
( 3 ) 2016-2017 , 青岛市应用研究专项(青年应用基础研究项目) , 861605040021
( 2 ) 2015-2017 , 中国博士后科学基金面上资助(一等) , 形貌可控酸性铂基碳烟氧化催化剂的制备及反应机制研究 , 2015M580607
( 1 ) 2015-2016 , 中央高校基本科研业务科研专项基金 , 201513051
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
(32)P. Liu, C. Zheng, W. Liu, X. Wu*, S. Liu*. Oxidative redispersion-derived single-site Ru/CeO2 catalysts with mobile Ru complexes trapped by surface hydroxyls instead of oxygen Vacancies, ACS Catalysis, 2024, 14: 6028−6044.
(31)X. Gao, L. Li, Y. Liu, C. Zheng, W. Liu, M. Li, X. Wu*, S. Liu*. Oxygen dynamics in lean propylene catalytic combustion over CeO2 and Pr6O11: Roles and interplay between lattice and adsorbed oxygen species, ACS Catalysis, 2024, 14: 2924−2937.
(30)刘爽*, 王志强. 稀土在汽油车尾气净化中的应用, 中国稀土学报, 2023, 41: 429–438. (特约综述)
(29)J. Lin, T. Wang, J. Zhou, X. Wu*, Z. Ma*, S. Liu*. Elucidating water’s place in catalytic C3H6 combustion over Pt@TiOx/TiO2 with super-hydrophilic silica-modified surface, Applied Catalysis B: Environmental, 2023, 324: 122234.
(28)刘爽*, 方子昂, 吴晓东. CeO2基材料用于汽油车碳烟燃烧:反应机理与催化剂设计, 中国稀土学报, 2022, 40: 351–365. (特约综述)
(27)X. Mao, S. Liu, W. Liu, X. Wu*, S. Liu*. A simple model catalyst study to distinguish the roles of different oxygen species in propane and soot combustion, Applied Catalysis B: Environmental, 2023, 310: 121331.
(26)T. Luo, S. Liu, M. Li, W. Liu, X. Wu*, S. Liu*. Ozone-assisted diesel soot combustion over Mn2O3 catalysts: A tandem work of different reactive phases, Journal of Catalysis, 2022, 408: 56–63.
(25)Z. Zhao, J. Ma, M. Li, W. Liu, X. Wu, S. Liu*. Model Ag/CeO2 catalysts for soot combustion: Roles of silver species and catalyst stability, Chemical Engineering Journal, 2022, 430: 132802.
(24)H. Liang, B. Jin, M. Li, X. Yuan, J. Wan, W. Liu, X. Wu*, S. Liu*. Highly reactive and thermally stable Ag/YSZ catalysts with macroporous fiber-like morphology for soot combustion, Applied Catalysis B: Environmental, 2021, 294: 120271.
(23)H. Hao, B. Jin, W. Liu, X. Wu*, F. Yin*, S. Liu*. Robust Pt@TiOx/TiO2 catalysts for hydrocarbon combustion: Effects of Pt-TiOx interaction and sulfates, ACS Catalysis, 2020, 10: 13543–13548.
(22)S. Liu*, L. Winter, J. Chen*. Review of plasma-assisted catalysis for selective generation of oxygenates from CO2 and CH4, ACS Catalysis, 2020, 10: 2855–2871.
(21)X. Wang, B. Jin, R. Feng, W. Liu, D. Weng, X. Wu*, S. Liu*. A robust core-shell silver soot oxidation catalyst driven by Co3O4: Effect of tandem oxygen delivery and Co3O4-CeO2 synergy, Applied Catalysis B: Environmental, 2019, 250: 132–142.
(20)M. Zhang, B. Jin, Y. Liu, W. Liu, D. Weng, X. Wu*, S. Liu*. Ozone activated Ag/CeO2 catalysts for soot combustion: The surface and structural influences, Chemical Engineering Journal, 2019, 375: 121961.
(19)H. Wang, S. Luo, X. Li, W. Liu, X. Wu, D. Weng, S. Liu*. Thermally stable Ag/Al2O3 confined catalysts with high diffusion-induced oxidation activity, Catalysis Today, 2019, 332: 189–194.
(18)H. Wang, M. Liu, Y. Ma, K. Gong, W. Liu, R. Ran, D. Weng, X. Wu*, S. Liu*. Simple strategy generating hydrothermally stable core-shell platinum catalysts with tunable distribution of acid sites, ACS Catalysis, 2018, 8: 2796–2804.
(17)H. Wang, B. Jin, H. Wang, N. Ma, W. Liu, D. Weng, X. Wu, S. Liu*. Study of Ag promoted Fe2O3@CeO2 as superior soot oxidation catalysts: The role of Fe2O3 crystal plane and tandem oxygen delivery, Applied Catalysis B: Environmental, 2018, 237: 251–262.
(16)H. Wang, S. Luo, M. Zhang, W. Liu, X. Wu*, S. Liu*. Roles of oxygen vacancy and Ox- in oxidation reactions over CeO2 and Ag/CeO2 nanorod model catalysts, Journal of Catalysis, 2018, 368: 365–378.
(15)Y. Gao, A. Duan, S. Liu*, X. Wu, W. Liu*, M. Li, S. Chen, X. Wang, D. Weng. Study of Ag/CexNd1-xO2 nanocubes as soot oxidation catalysts for gasoline particulate filters: Balancing catalyst activity and stability by Nd doping, Applied Catalysis B: Environmental, 2017, 203: 116–126.
(14)H. Wang, S. Liu*, Z. Zhao, X. Zou, M. Liu, W. Liu*, X. Wu, D. Weng. Activation and deactivation of Ag/CeO2 during soot oxidation: influences of interfacial ceria reduction, Catalysis Science & Technology, 2017, 7: 2129–2139.
(13)S. Liu*, X. Wu*, W. Liu, W. Chen, R. Ran, M. Li, D. Weng. Soot oxidation over CeO2 and Ag/CeO2: Factors determining the catalyst activity and stability during reaction. Journal of Catalysis, 2016, 337: 188–198.
(12)S. Liu*, X. Wu*, J. Tang, P. Cui, X. Jiang, C. Chang, W. Liu, Y. Gao, M. Li, D. Weng. An exploration of soot oxidation over CeO2-ZrO2 nanocubes: Do more surface oxygen vacancies benefit the reaction? Catalysis Today, 2017, 281: 454–459.
(11)S. Liu, X. Wu*, D. Weng*, M. Li, R. Ran. Roles of acid sites on Pt/H-ZSM5 catalyst in catalytic oxidation of diesel soot. ACS Catalysis, 2015, 5: 909–919.
(10)S. Liu, X. Wu*, H. Luo, D. Weng*, R. Ran. Pt/zeolite catalysts for soot oxidation: Influence of hydrothermal ageing. Journal of Physical Chemistry C, 2015, 119: 17218–17227.
(9)S. Liu, X. Wu*, D. Weng, M. Li, J. Fan. Sulfation of Pt/Al2O3 catalyst for soot oxidation: High utilization of NO2 and oxidation of surface oxygenated complexes. Applied Catalysis B: Environmental, 2013, 138–139: 199–211.
(8)S. Liu, X. Wu*, D. Weng, M. Li, H. Lee. Combined promoting effects of platinum and MnOx–CeO2 supported on alumina on NOx-assisted soot oxidation: Thermal stability and sulfur resistance. Chemical Engineering Journal, 2012, 203: 25–35.
(7)S. Liu, X. Wu*, D. Weng, R. Ran. NOx-assisted soot oxidation on Pt−Mg/Al2O3 catalysts: Magnesium precursor, Pt particle size, and Pt−Mg interaction. Industrial & Engineering Chemistry Research, 2012, 51: 2271–2279.
(6)S. Liu, X. Wu*, Y. Lin, M. Li, D. Weng. Active oxygen-assisted NO-NO2 recycling and decomposition of surface oxygenated species on diesel soot with Pt/Ce0.6Zr0.4O2 catalyst. Chinese Journal of Catalysis, 2014, 35: 407–415.
(5)S. Liu, X. Wu*, D. Weng*, R. Ran. Ceria-based catalysts for diesel soot oxidation: A review. Journal of Rare Earths, 2015, 33: 567–590. (特约综述)
(4)X. Wu*, S. Liu, D. Weng, F. Lin, R. Ran. MnOx–CeO2–Al2O3 mixed oxides for soot oxidation: Activity and thermal stability. Journal of Hazardous Materials, 2011, 187: 283–290.
(3)X. Wu*, S. Liu, D. Weng. Effects of tungsten oxide on soot oxidation activity and sulfur poisoning resistance of Pt/Al2O3 catalyst. Catalysis Science & Technology, 2011, 1: 644–651.
(2)X. Wu*, S. Liu, D. Weng, F. Lin. Textural–structural properties and soot oxidation activity of MnOx-CeO2 mixed oxides. Catalysis Communications, 2011, 12: 345–348.
(1)X. Wu*, S. Liu, F. Lin, D. Weng. Nitrate storage behavior of Ba/MnOx–CeO2 catalyst and its activity for soot oxidation with heat transfer limitations. Journal of Hazardous Materials, 2010, 181: 722–728.
京公网安备 11010802027423号