祝晓琳（副教授）

  姓    名：

祝晓琳

  职    称：

   副教授

  导师类别：

　博士生导师、硕士生导师

  系    室：

　化学工程系

  研究领域：

　工业催化、石油化工

  电子邮箱：

    zhuxiaolin@upc.edu.cn, upczhuxl@163.com

  联系电话：

    15275266591

◎教育背景

2005.9-2009.7， 中国石油大学（华东）， 化学工程与工艺， 工学学士

2009.9-2014.7， 中国石油大学（华东）， 化学工程与技术， 博士研究生

◎工作经历

2014.8-2016.6， 清华大学， 化学工程系， 博士后

2016.7-2016.12， 中国石油大学（华东）， 化学工程学院， 讲师

2017.1-至今， 中国石油大学（华东）， 化学化工学院， 副教授

◎研究方向

[1] 工业催化——低碳烷烃催化转化、甲醇与芳烃烷基化、羟醛缩合等

[2] 石油化工——催化裂解催化剂与工艺、气固循环流态化等

◎科研项目

[1] 2022-2025  国家自然科学基金面上项目  甲苯甲醇烷基化与甲醇自转化反应耦合机制及增产烯烃调控措施  主持

[2] 2018-2020  国家自然科学基金青年基金  高硅ZSM-5分子筛烷基化活性位识别及其催化性能调控  主持

[3] 2018-2019  山东省重点研发计划  催化裂化提升管反应器预提升段结构形式优化研究  主持

[4] 2017-2019  山东省自然科学基金  基于高硅ZSM-5分子筛的烷基化催化剂设计及其性能优化  主持

[5] 2014-2016  中国博士后科学基金面上资助  纳米颗粒包覆改善C类粘性颗粒流动性的方法及机制    主持

[6] 2024-2025  校自主创新科研计划  低温高效甲烷氧化偶联制乙烯催化剂设计  主持

[7] 2017-2019  校自主创新科研计划  高硅ZSM-5分子筛用于甲苯甲醇烷基化的优化设计及基础研究  主持

[8] 2017-2020  校人才引进项目  高效甲苯甲基化催化剂设计及其稳定性强化方法  主持

[9] 2022-2024  企业横向课题  重烃催化裂解复活再生催化剂性质测试及中试评价  主持

[10] 2022-2024  企业横向课题  轻烃催化裂解催化剂中试评价及性质分析测试  主持

[11] 2022-2023  企业横向课题  苯乙烯焦油催化裂解性能测试  主持

[12] 2021-2022  中石油科技项目  非贵金属环保型流化床丙烷催化脱氢制丙烯成套技术工业应用试验  参与

[13] 2021-2023  中石油科技项目  石蜡基原油催化裂解制低碳烯烃催化剂中试工艺条件优化研究  参与

[14] 2020-2021  中石油科技项目  原油催化裂解制烯烃工艺技术中试研究  参与

[15] 2019-2020  中石油科技项目  催化裂化-循环油加氢回炼技术研究  参与

[16] 2019-2021  中石油科技项目  富芳组分催化加氢与催化裂化耦合调控研究  参与

[17] 2018-2019  中石油科技项目  催化柴油窄馏分选择性加氢回炼技术研究  参与

◎代表性论文及专利

近年来，公开发表学术论文   60 余篇，其中SCI收录 50 余篇，H因子 20。

[1] Zhu   XL, Guo HF, Li RY, Yan H, Yang MY, Wang MQ, Yin FM, Yang X, Li CY, Yang   CH, Wang GW. Regulating lattice oxygen mobility of FeO_x redox   catalyst via W-doping for enhanced chemical looping oxidative dehydrogenation   of ethane. Chemical Engineering   Journal (SCI一区TOP,   IF = 13.3), 2023, 470: 144219.

[2] Li N, Yuan MZ, Cui GJ, Xu JL, Li XY,   Wang GW, Zhu XL*, Li CY*. Selective   peroxidation of isobutane with molecular oxygen over molybdenum oxide   catalyst for direct synthesis of di-tert-butyl peroxide. Chemical Engineering Journal (SCI一区TOP, IF = 13.3), 2023, 467: 143406.

[3] Wang GW, Zhou LH, Liu SZ, Tang N,   Zhu CL, Zhu XL*, Li CY, Yang CH, Shan   HH. Highly active and stable Y₂O₃ promoted TiO₂-ZrO₂   catalyst for propane dehydrogenation. Chemical   Engineering Journal (SCI一区TOP, IF = 13.3), 2023, 477: 147047.

[4] Wang GW*, Zhu CL, Zhang S, Zhou LH,   Zhang HL, Zhu XL*, Shan HH. Deactivation   origins and stability-enhancing strategies of Sn/SiO₂ catalysts   for ethane dehydrogenation. Molecular   Catalysis (SCI二区,   IF = 3.9), 2023, 535: 112826.

[5] Wang Y, Yang X, Yin FM, Zhang K, Guo   HF, Wang GW, Jiang GY, Li CY, Zhu XL*.   Elucidating the effect of barium halide promoters on La₂O₃/CaO   catalyst for oxidative coupling of methane. Journal of Energy Chemistry (SCI一区TOP, IF = 14.0), 2022, 73: 49-59.

[6] Zhu   XL*, Wang Y, Wang GW, Hou YF, Yu MX, Yang X, Yin FM. Synergistic   co-conversion of pentane and methanol to aromatics over bifunctional   metal/ZSM-5 zeolite catalysts. Microporous   and Mesoporous Materials (SCI二区TOP, IF = 5.455), 2021, 320: 111107.

[7] Cheng M, Wang Y, Wang WH, Wang GW, Zhu XL*, Li CY. Promoting effect of   copper oxide on CsX zeolite catalyst for side-chain alkylation of toluene   with methanol. Microporous and   Mesoporous Materials (SCI二区TOP, IF = 5.455), 2021, 311: 110732.

[8] Wang Y, Yang X, Hou CX, Yin FM, Wang   GW, Zhu XL*, Jiang GY, Li CY.   Improved catalytic activity and stability of ba substituted SrTiO3 perovskite   for oxidative coupling of methane. ChemCatChem  (SCI二区, IF = 5.686), 2021, 13: 4182-4191.

[9] Zhu   XL*, Wang H, Wang GW, Hou YF, Zhang JY, Li CY, Yang CH. Aromatization of   n-pentane over Zn/ZSM-5 catalysts: effect of Si/Al ratio and reaction   pathway. Journal of Porous Materials   (SCI三区,   IF = 2.496), 2021, 28: 1059-1067.

[10] Wang SS, Cheng M, Zhu XL*, Lin CH, Wang GW, Zhen XP,   Tian LY, Li CY. Effect of swirling gas nozzles on gas-solid flow patterns   inside a novel multi-regime riser. Powder   Technology (SCI二区,   IF = 5.134), 2020, 367: 233-242.

[11] Zhu XL*, Yu MX, Cheng M, Wang Y, Li BQ, Zhang   HN, Wang GW, Li CY*. Conceptual fluid catalytic cracking process with the   additional regenerated catalyst circulation path for gasoline reprocessing   and upgrading with minimum loss. Energy & Fuels (SCI二区TOP, IF = 3.021),   2020, 34: 235-244.

[12] Wang GW, Zhang S, Zhu XL*,   Li CY*. Dehydrogenation versus hydrogenolysis in the reaction of light   alkanes over Ni-based catalysts. Journal of Industrial and   Engineering Chemistry (SCI二区, IF = 4.978), 2020, doi: 10.1002/tcr.201900090.

[13] Zhu XL*, Zhang JY, Cheng M, Wang GW, Yu MX, Li   CY*. Methanol aromatization over Mg-P-modified [Zn,Al]ZSM-5 zeolites for   efficient coproduction of para-xylene and light olefins. Industrial   & Engineering Chemistry Research (SCI二区TOP, IF = 3.375),   2019, 58: 19446-19455.

[14] Zhang JY, Zhu XL*, Zhang SH,   Cheng M, Yu MX, Wang GW, Li CY*. Selective production of para-xylene and   light olefins from methanol over the mesostructured Zn-Mg-P/ZSM-5   catalyst. Catalysis Science & Technology (SCI二区, IF = 5.726), 2019,   9: 316-326.

[15] Liu JW, Wang GW, Zhu XL*, Li   CY*, Shan HH. Temperature-programmed studies of isobutene oxidation over   alpha-Bi2Mo3O12: Active oxygen species and reaction mechanism. Applied   Surface Science (SCI二区, IF = 5.155), 2019, 470: 846-853.

[16] Zhang JY, Zhu XL*, Wang GW,   Wang PZ, Meng Z, Li CY*.The origin of the activity and selectivity of   silicalite-1 zeolite for toluene methylation to para-xylene. Chemical   Engineering Journal (SCI一区TOP, IF = 8.355), 2017, 327: 278-285.

[17] Zhang HN, Zhu XL*, Chen XC,   Miao PP, Yang CC, Li CY*. Fluid catalytic cracking of hydrogenated light   cycle oil for maximum gasoline production: effect of catalyst   composition. Energy & Fuels (SCI二区TOP, IF = 3.021),   2017, 31: 2749-2754.

[18] Zhu XL, Zhang Q*, Huang C, Wang Y, Yang CH,   Wei F. Validation of surface coating with nanoparticles to improve the   flowability of fine cohesive powders. Particuology (SCI三区, IF = 2.616), 2017,   30: 53-61.

[19] Zhu XL, Tang C, Wang HF, Li BQ, Zhang Q*, Li   CY, Yang CH, Wei F. Monolithic-structured ternary hydroxides as freestanding   bifunctional electrocatalysts for overall water splitting. Journal of   Materials Chemistry A (SCI一区TOP, IF = 10.733), 2016, 4: 7245-7250.

[20] Zhu XL, Zhang Q*, Wang Y, Wei F. Review on the   nanoparticle fluidization science and technology. Chinese Journal of   Chemical Engineering (SCI三区, IF = 1.911), 2016, 24: 9-22.

[21] Zhu XL, Tang C, Wang HF, Zhang Q*, Yang CH,   Wei F. Dual-sized NiFe layered double hydroxides in situ grown on   oxygen-decorated self-dispersal nanocarbon as enhanced water oxidation catalysts. Journal   of Materials Chemistry A (SCI一区TOP, IF = 10.733), 2015, 3: 24540-24546.

[22] Zhu XL, Geng Q, Wang GW, Li CY*, Yang CH.   Hydrodynamics and catalytic reaction inside a novel multi-regime riser. Chemical   Engineering Journal (SCI一区TOP, IF = 8.355), 2014, 246: 150-159.

[23] Zhu XL, Li CY*, Yang  CH, Wang GW, Geng   Q, Li T. Gas-solids flow structure and prediction of solids concentration   distribution inside a novel multi-regime riser. Chemical Engineering   Journal (SCI一区TOP,   IF = 8.355), 2013, 232: 290-301.

[24] Zhu XL, Yang CH, Li CY*, Liu YB, Wang L, Li T,   Geng Q. Comparative study of gas-solids flow patterns inside novel   multi-regime riser and conventional riser. Chemical Engineering   Journal (SCI一区TOP,   IF = 8.355), 2013, 215: 188-201.

[25] Zhu XL, Jiang S, Li CY*, Chen XB, Yang CH.   Residue catalytic cracking process for maximum ethylene and propylene   production. Industrial & Engineering Chemistry Research (SCI二区TOP, IF = 3.375),   2013, 52: 14366-14375.

[26] Zhu XL, Wang GW, Geng Q, Li CY*, Yang CH.   Pressure drop and apparent solids concentration inside a novel multi-regime   riser. Advanced Materials Research (EI收录), 2013, 709:   309-312.

[27] Wang GW*, Jiang YX, Zhang S, Zhu XL, Shan HH. Insight into the   Active Co Phase of Co/Al2O3 Catalyst for Ethane Dehydrogenation. Catalysis Letters (SCI三区, IF = 3.186), 2022,   10.1007/s10562-021-03883-3.

[28] Miao PP, Zhu XL, Zhou Z, Feng XP, Miao J, Hou CX, Li CY*. Combined   dealkylation and transalkylation reaction in FCC condition for efficient   conversion of light fraction light cycle oil into value-added products. Fuel (SCI一区, IF = 6.609), 2021,   304: 121356.

[29] Miao PP, Zhu XL, Guo YL, Miao J, Yu MY, Li CY*. Combined mild   hydrocracking and fluid catalytic cracking process for efficient conversion   of light cycle oil into high-quality gasoline. Fuel (SCI一区,   IF = 6.609), 2021, 292: 120364.

[30] Miao PP, Miao J, Guo YL, Lin CH,   Zhu XL, Li CY*. Efficient conversion of light cycle oil into gasoline with a   combined hydrogenation and catalytic cracking process: effect of   pre-distillation. Energy & Fuels (SCI三区, IF = 3.605), 2020, 34: 12505-12516.

[31] Wang GW, Zhu XL, Li CY*.   Recent progress in commercial and novel catalysts for catalytic   dehydrogenation of light alkanes. Chemical Record (SCI二区, IF =5.387), 2019,   doi: 10.1002/tcr.201900090.

[32] Geng Q, Zhu XL, Yang J, You   XH, Liu YB, Li CY*. Flow regime identification in a novel   circulating-turbulent fluidized bed. Chemical Engineering Journal (SCI一区TOP, IF = 5.310),   2014, 244: 493-504.

[33] Wang GW, Zhu XL, Zhang JY,   Sun YN, Li CY*, Shan HH. Catalytic dehydrogenation of isobutane over Co-based   catalysts. RSC Advances (SCI三区, IF = 3.289), 2014, 4: 57071-57082.

[34] Geng Q, Zhu XL, Liu YX,   Liu YB, Li CY*, You XH. Gas-solid flow behavior and contact efficiency in a   circulating-turbulent fluidized bed. Powder Technology (SCI二区, IF = 2.759), 2013,   245: 134-145.

[35] Shi JL, Wang HF, Zhu XL,   Chen CM, Huang X, Zhang XD, Li BQ, Tang C, Zhang Q*. The nanostructure   preservation of 3D porous graphene: New insights into the graphitization and   surface chemistry of non-stacked double-layer templated graphene after   high-temperature treatment. Carbon (SCI一区TOP, IF = 6.198),   2016, 103: 36-44.

[36] Wang HF, Tang C, Zhu XL,   Zhang Q*. A 'point-line-point' hybrid electrocatalyst for bi-functional   catalysis of oxygen evolution and reduction reactions. Journal of   Materials Chemistry A (SCI一区TOP, IF = 8.262), 2016, 4: 3379-3385.

[37] Wang GW, Gao CC, Zhu XL, Sun   YN, Li CY*, Shan HH. Isobutane dehydrogenation over metal (Fe, Co, and Ni)   oxide and sulfide catalysts: reactivity and reaction mechanism. ChemCatChem (SCI二区, IF = 4.724), 2014,   6: 2305-2314.

[38] Wang GW, Wu WL, Zhu XL, Sun   YN, Li CY*, Shan HH. Effect of calcination temperature on isobutane   dehydrogenation over Mo/MgAl2O4 catalysts. Catalysis Communications (SCI三区, IF = 3.389), 2014,   56: 119-122.

[39] Tang C, Wang HF, Zhu XL, Li   BQ, Zhang Q*. Advances in hybrid electrocatalysts for oxygen evolution   reactions: Rational integration of NiFe layered double hydroxides and   nanocarbon. Particle & Particle Systems Characterization (SCI二区, IF = 4.367), 2016,   33: 473-486.

[40] Geng Q, Wang P, Zhu XL, You   XH, Li CY*. Flow dynamics and contact efficiency in a novel fast-turbulent   fluidized bed with ring-feeder internals. Particuology (SCI三区, IF = 2.280), 2015,   21: 203-211.

[41] Wang GW, Zhang HL, Zhu QQ, Zhu   XL, Li XY, Wang H, Li CY*, Shan HH.Sn-containing hexagonal mesoporous   silica (HMS) for catalytic dehydrogenation of propane: An efficient strategy   to enhance stability. Journal of Catalysis (SCI一区TOP, IF = 7.723),   2017, 351, 90-94.

[42] Zhu QQ, Wang GW*, Zhang HL, Zhu   XL, Li CY*. n-Butane dehydrogenation over Ni-Sn/SiO₂:   Adsorption modes and reaction paths of n-butane and 1-butene. Applied   Catalysis A: General (SCI二区TOP, IF = 4.630), 566: 113-120.

[43] Zhu QQ, Zhang HL, Zhang S, Wang   GW*, Zhu XL, Li CY*. Dehydrogenation of isobutane over a Ni-P/SiO₂ catalyst:   Effect of P addition. Industrial & Engineering Chemistry Research (SCI二区TOP, IF = 3.375), 58:   7934-7943.

[44]Miao PP, Li K, Fan JT, Xu NW, Zhu   XL, Li CY*. Efficient ring-opening reaction of tetralin over nanosized   ZSM-5 zeolite: Effect of SiO₂/Al₂O₃ ratio   and reaction condition. Energy & Fuels (SCI二区TOP, IF = 3.021),   2019, 33: 9480-9490.

[45] Li BQ, Tang C, Wang HF, Zhu XL,   Zhang Q*. An aqueous preoxidation method for monolithic perovskite   electrocatalysts with enhanced water oxidation performance. Science   Advances (SCI一区TOP,   IF = 12.804), 2016, 2: e1600495.

[46] Wang GW, Sun NN, Gao CC, Zhu XL,   Sun YN, Li CY*, Shan HH. Promoting mechanism of sulfur addition in catalytic   dehydrogenation of isobutane over Mo/MgAl2O4 catalysts. Applied   Catalysis A: General (SCI二区, IF = 4.012), 2014, 478: 71-80.

◎代表性著作

◎获奖情况及荣誉称号

[1] 2018.11    荣获“青岛西海岸新区高层次人才”紧缺人才

[2] 2015.10    荣获“山东省优秀博士学位论文”

[3] 2013.12    荣获中国石油大学“学术十杰”

◎执教课程

本科生：《化工过程分析与合成》、《石油加工概论》、《专业综合实验》、《专业实验》

◎招收及指导研究生情况

1. 指导研究生情况

独立指导学术研究生4名，专业硕士研究生5名。

2. 招生专业及要求

招收化工专业博士，化工专业学硕、专硕，欢迎化工、应化、能化、化学相关专业同学报考。

◎学术兼职

中国颗粒学会青年理事；Applied   Catalysis B: Environmental (SCI一区, IF = 19.503)、Chemical Engineering Journal (SCI一区, IF = 13.273)、Journal of Energy Chemistry (SCI一区, IF =   9.676)、ACS Applied Materials & Interfaces (SCI一区、9.229)、Fuel (SCI一区,   IF = 6.609)、Applied Catalysis A: General (SCI二区, IF = 5.706)、Microporous and Mesoporous   Materials (SCI二区、IF = 5.455)、Powder   Technology (SCI二区、IF = 5.134)、Particuology (SCI二区、IF = 3.067)、Industrial & Engineering Chemistry Research (SCI三区, IF = 3.720)、Energy & Fuels (SCI三区, IF = 3.605)等国际期刊审稿人。