刘振（副教授）

»姓名： 刘振

»职称： 副教授/硕导

系属： 化学工程系

»最高学位： 博士

»学科： 化学工程与技术

»所学专业： 工业催化

»电子邮箱：zhenliu@upc.edu.cn

»联系电话：18561602890 （微信同号）

»地址邮编：山东省青岛市黄岛区长江西路66号中国石油大学（华东）化学工程学院,266580

»个人主页：

◎学习与工作经历

• 2016/1-至今，中国石油大学（华东），化学工程学院，副教授；

• 2015/3-2016/3，美国宾夕法尼亚州立大学，材料研究所，访问学者；

• 2011/1-2015/12，中国石油大学（华东），化学工程学院，讲师；

• 2005/9–2010/12， 湖南大学， 化学工程与技术， 博士；

• 2001/9–2005/7， 湖南大学， 化学工程与工艺， 学士。

 ◎主讲课程

    本科：化工原理、化学工程基础、化工工艺与设备、C1化学与工艺；

    硕士：催化剂制备与表征

 ◎研究方向

• 新型功能分子筛及功能化碳材料的设计与合成；

• C1化工与催化：甲醇制烯烃、CO₂加氢转化、F-T反应、低碳烷烃催化裂解等

• 清洁油品生产技术（催化裂化、异构化、反应/吸附脱硫）；

• 低碳烯烃生产工艺及催化剂设计合成；

◎学术兼职

    中国化工学会新材料委员会委员；

    Journal of Porous Material杂志编委；

    RSC Advances, Carbon, Applied Catalysis A等多家杂志审稿人

◎指导研究生情况

博士：

2018级：1人（协助指导）

硕士

2019级：2人；2018级：3人；2017级：3人；2016级：2人；2015级：1人；2014级：3人；2012级：1人；2011级：1人；2010级：1人

◎承担科研课题

• 多级孔ZSM-5分子筛的活性敏感结构设计、调控及其在FCC反应中的作用机制研究2015-05-012017-06-01厅局级

• Crude Oil Desulfurization Technologies Screening Study2016-09-282019-12-27横向

• 微介复合孔道超稳MeSAPO-11分子筛合成新技术2017-02-012019-06-30横向

• 氮原子可控掺杂合成多孔碳材料及CO2吸附增强 机理研究2017-08-012019-12-31省部级

• SAPO-34分子筛酸性调变合成及MTO性能研究2018-01-012020-12-31校级

• 重质油加工催化基础材料相关人才培养体系建设聘请外教特色项目2018-01-012018-12-31校级

• 面向分布式光伏系统的锂离子电容研究2018-03-012020-12-31省部级

• FCC废催化剂复活技术研究（第一期）2018-07-052018-07-31横向

• 费托铁基催化剂工业应用失活研究2019-05-012021-05-01横向

• 浒苔基多孔碳材料的合成及其汽油深度吸附脱硫应用研究2019-07-012021-07-01省部级

• 由骨架原子配位环境强化MeAPO-11分子筛的水热稳定性2019-07-012022-06-30省部级

• 炼油催化剂关键催化材料研究开发与工业放大2019-09-012020-08-30横向

◎代表性论文和专利

[1] F. Subhan, & Z. Liu, et al., Highly dispersive lanthanum oxide fabricated in confined space of SBA-15 for adsorptive desulfurization, Chemical Engineering Journal, 384 (2020).

[2] C. Wang, & Z. Liu, et al., Dependence of Surface Tension on Surface Concentration in Ionic Surfactant Solutions and Influences of Supporting Electrolyte Therein, Tenside Surfactants Detergents, 56 (2019) 484-489.

[3] F. Subhan, & Z. Liu, et al.,Ammonia assisted functionalization of cuprous oxide within confined spaces of SBA-15 for adsorptive desulfurization, Chemical Engineering Journal, 339 (2018) 557-565.

[4] W. Xing, Z. Liu, & Z.F. Yan, et al., Revealing the impacting factors of cathodic carbon catalysts for Li-CO2 batteries in the pore-structure point of view, Electrochim. Acta, 311 (2019) 41-49.

[5] , Z. Liu, & Z.F. Yan, et al., Hydrothermal synthesis of beta zeolite from industrial silica sol as silicon source, Journal of Porous Materials, 26 (2019) 1017-1025.

[6] F. Subhan, & Z. Liu, et al. Facile functionalization of 3-D ordered KIT-6 with cuprous oxide for deep desulfurization, Chemical Engineering Journal, 330 (2017) 372-382.

[7] Y. Liu, Z. Liu, & XM Liu, et al., Promoter effect of heteroatom substituted AlPO-11 molecular sieves in hydrocarbons cracking reaction, J. Colloid Interface Sci., 528 (2018) 330-335.

[8]贾智姣,刘振,等人 复合模板剂诱导合成SAPO-34分子筛及其MTO性能研究,工业催化, 26 (2018) 50-55.

[9] F. Subhan , Z. Liu, & Z.F. Yan, et al. Confinement of mesopores within ZSM-5 and functionalization with Ni NPs for deep desulfurization, Chemical Engineering Journal, 354 (2018) 706-715.

[10] Z. Liu, & Z.F. Yan, et al. New strategy to prepare ultramicroporous carbon by ionic activation for superior CO2 capture, Chemical Engineering Journal, 337 (2018) 290-299.

[11] W. Xing, Z. Liu, & Z.F. Yan, et al., Functionalization of petroleum coke-based mesoporous carbon for synergistically enhanced capacitive performance, J. Mater. Res., 32 (2017) 1248-1257.

[12] F. Subhan, Z. Liu, & Z.F. Yan, et al. Unusual nickel dispersion in confined spaces of mesoporous silica by one-pot strategy for deep desulfurization of sulfur compounds and FCC gasoline, Chemical Engineering Journal, 321 (2017) 48-57.

[13] Y. Lyu, Z. Liu, & XM Liu, et al., Effect of ethanol on the surface properties and n-heptane isomerization performance of Ni/SAPO-11, Appl. Surf. Sci., 401 (2017) 57-64.

[14] Y. Liu, Z. Liu, & XM Liu, et al., Effect of lanthanum species on the physicochemical properties of La/SAPO-11 molecular sieve, J. Catal., 347 (2017) 170-184.

[15] P. Bai, Z. Liu, & Z.F. Yan, et al., Copolymer Assisted Self-Assembly of Nanoporous Mixed Oxides for Reactive Adsorption Desulfurization, Nanoscience and Nanotechnology Letters, 8 (2016) 931-937.

[16] Z. Liu, & Z.F. Yan, et al. Detailed investigation of N-doped microporous carbons derived from urea furfural resin for CO2 capture, Journal of Porous Materials, 22 (2015) 1663-1672.

[17] Z. Liu, & Z.F. Yan, et al.Product oriented oxidative bromination of methane over Rh/SiO2 catalysts, J. Nat. Gas Chem., 19 (2010) 522-529.

[18] Z. Liu, & Z.F. Yan, et al.Furfuralcohol Co-Polymerized Urea Formaldehyde Resin-derived N-Doped Microporous Carbon for CO2 Capture, Nanoscale Research Letters, 10 (2015) 333.

[19] Z. Liu, & Z.F. Yan, et al.Hierarchical SAPO-11 preparation in the presence of glucose, Mater. Lett., 154 (2015) 116-119.

[20] Xing, Z. Liu, Z. Liu, & Z.F. Yan, et al.Superhigh-rate capacitive performance of heteroatoms-doped double shell hollow carbon spheres, Carbon, 86 (2015) 235-244.

[21] C. Wang, & Z. Liu, et al., Using neutral impact collision ion scattering spectroscopy and angular resolved X-ray photoelectron spectroscopy to analyze surface structure of surfactant solutions, Colloid Polym. Sci., 293 (2015) 1655-1666.

[22] W. Xing Z. Liu, & Z.F. Yan, et al. Studies in the capacitance properties of diaminoalkane-intercalated graphene, Electrochim. Acta, 148 (2014) 220-227.

[23] Z. Liu, & Z.F. Yan, et al., Hierarchical SAPO-11 synthesis by carbon nanoparticles templating method and its application on n-dodecane hydroisomerization, Advanced Materials Research, 912-914 (2014) 168-171.

[24] Z. Liu, & XP Zhou, et al., Tailoring acidity of HZSM-5 nanoparticles for methyl bromide dehydrobromination by Al and Mg incorporation, Nanoscale Research Letters, 9 (2014) 550.

[25] Z. Liu, & Z.F. Yan, et al. Synthesis of meso-SAPO-11 and its enhancement of isomerization in fluid catalytic cracking process, Appl Petrochem Res, 4 (2014) 389-394.

[26] Z. Liu, & Z.F. Yan, et al., Preparation of hierarchical SAPO-11 molecular sieve and its application for n-dodecane isomerization, Appl Petrochem Res, 4 (2014) 401-407.

[27] W. Xing, Z. Liu, & Z.F. Yan, et al., Superior capacitive performance of active carbons derived from Enteromorpha prolifera, Electrochim. Acta, 133 (2014) 459-466.

[28] Z. Liu, & Z.F. Yan, et al. Synthesis of hierarchical SAPO-11 for hydroisomerization reaction in refinery processes, Appl Petrochem Res, 4 (2014) 351-358.

[29]刘振*,阎子峰等人,硬模板法制备微孔-介孔复合SAPO-11分子筛及其长链烷烃异构化反应研究,中国石油大学学报(自然科学版), 38 (2014) 153-158.

[30] Z. Liu, & Z.F. Yan, et al., The fabrication of porous N-doped carbon from widely available urea formaldehyde resin for carbon dioxide adsorption, J. Colloid Interface Sci., 416 (2014) 124-132.

[31] Z. Liu, & Z.F. Yan, et al., Facial synthesis of N-doped microporous carbon derived from urea furfural resin with high CO2 capture capacity, Mater. Lett., 117 (2014) 273-275.

[32] Z. Liu, & Z.F. Yan, et al., Hierarchical meso-microporous SAPO-11 synthesis from acid assistant dealuminzation: Effect of acid strength, Applied Mechanics and Materials, 313 (2013) 219-222.

[33] Y. Wang, Z. Liu, & Z.F. Yan, et al., Synthesis of hierarchically ordered egg-tray-like macroporous TiO2–SiO2 nanocomposites with ordered mesoporous walls, Mater. Lett., 111 (2013) 173-176.

 ◎专利

1. 白鹏,刘振,  阎子峰, et al.,, 一种以稻壳为原料制备等级孔Y型分子筛的方法, 中国专利, CN201810065964, 2018.

2. 刘振, 阎子峰, 邢伟, et al.,  一种极微孔多孔碳材料及其制备方法, 中国专利, CN201711402101， 2017.

3. 刘振, 阎子峰, 刘欣梅, , et al.,  一种极微孔碳材料及其制备方法, 中国专利, CN201711377292， 2017.

4. 邢伟,刘振,  阎子峰, et al., 柔性自支撑多孔炭@层状双金属氢氧化物复合材料及其制备方法和应用, 中国专利, CN201610860809  2016.

5. 刘振, 邢伟, 阎子峰, et al., 一种可调变酸性的SAPO-11分子筛及其制备方法, 中国专利, CN201510891786.5, 2016

6. 许本静, 刘振, 邢伟, et al., 与SiCl4反应铵交换催化裂化废催化剂的复活方法,中国专利, CN104841495A, 2015.

7. 阎子峰, 刘振, 刘欣梅, et al., 增产富含异构烷烃汽油的催化裂化催化剂, 中国专利, CN 201410130865.X, 2014.