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个人简介

学习与工作经历 1.2016/1-至今,中国石油大学(华东),化学工程学院,副教授; 2.2015/3-2016/3,美国宾夕法尼亚州立大学,材料研究所,访问学者; 3.2011/1-2015/12,中国石油大学(华东),化学工程学院,讲师; 4.2005/9–2010/12, 湖南大学, 化学工程与技术, 博士; 5.2001/9–2005/7, 湖南大学, 化学工程与工艺, 学士。 主讲课程 l 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; l 硕士:催化剂制备与表征 指导研究生 硕士:2010级:1人;2011级:1人;2012级:1人;2014级:3人;2015级:1人;2016级:2人。 承担科研课题 1. 2014/07- 2016/06,中国石油创新科技基金,2014D-5006-0404,高抗碱氮柴油异构降凝催化剂的合成技术,主持; 2. 2014/07-2017/06,中国石油集团公司“十二五”重大科技项目专题,2014A-2111,新一代介孔纯相γ-Al2O3载体材料制备研究,参与; 3. 2013/01-2015/12,国家自然科学基金青年基金项目,21206196,石墨相氮化碳固载化催化剂的制备及其在甲醇羰基化制醋酸反应中的应用研究,已结题,主持; 4. 2013/01-2015/12,国家自然科学基金青年项目,21203251, 离子型表面活性剂水溶液表面结构的研究-实验测定与分子动力学模拟,已结题,参与; 5. 2012/07-2015/07,山东省优秀中青年科学家科研奖励基金,BS2012NJ013,基于多级孔道合成理论的直链烷烃异构化催化剂合成及其催化作用机理研究,已结题,主持; 6. 2011/10-2013/10,中国石油大学(华东)自主创新科研计划项目,27R1204003A,新型介孔石墨相氮化碳的合成及其催化应用,已结题,主持。 荣誉称号 2015年,大学生创新创业训练计划优秀指导教师 专利 [1] 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 [2] 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. [3] 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. [4]刘振,李文生,周小平, et al.,甲烷溴氧化制溴甲烷及其转化制碳氢化合物的催化剂,中国专利,ZL200710034726.7, 2013. [5]王科,刘振,周小平, et al., 金属镁及其掺杂其他金属的混合物催化分解碳氢化合物制氢, 中国专利, ZL200510032547.0, 2008.

研究领域

新型功能分子筛材料的设计与合成及其在清洁油品生产及甲醇转化等领域的催化应用; 新型碳材料的设计合成及其在气体吸附领域的应用; 生产低碳烯烃工艺的催化剂设计合成; 天然气及低碳烷烃转化处理工艺及其高效催化剂的开发;

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)

目前已经发表学术论文22篇(SCI收录15篇、EI收录7篇) 部分已发表论文列表: [1] Z. Liu*, Y. Zhu, Z. Du, et al., Detailed investigation of N-doped microporous carbons derived from urea furfural resin for CO2 capture, Journal of Porous Materials, 2015, 22(6) 1663-1672 [2] Z. Liu*, Y. Yang, Z. Du, et al., Furfuralcohol Co-Polymerized Urea Formaldehyde Resin-derived N-Doped Microporous Carbon for CO2 Capture, Nanoscale Research Letters, 2015, 10(1) 333 [3] Z. Liu*, L. Liu, H. Song, et al., Hierarchical SAPO-11 preparation in the presence of glucose, Materials Letters, 2015, 154(0) 116-119 [4] Zhen Liu*, Zhipeng Ma, Z. Yan, Hierarchical SAPO-11 synthesis by carbon nanoparticles templating method and its application on n-dodecane hydroisomerization, Advanced Materials Research, 2014, 912-914 168-171 [5] Z. Liu*, Z. Zhang, W. Xing, et al., Tailoring acidity of HZSM-5 nanoparticles for methyl bromide dehydrobromination by Al and Mg incorporation, Nanoscale Research Letters, 2014, 9(1) 550 [6] H. Song, Z. Liu*, W. Xing, et al., Synthesis of meso-SAPO-11 and its enhancement of isomerization in fluid catalytic cracking process, Applied Petrochemical Research, 2014, 4 389-394 [7] H. Song, Z. Liu*, W. Xing, et al., Preparation of hierarchical SAPO-11 molecular sieve and its application for n-dodecane isomerization, Applied Petrochemical Research, 2014, 4 401-407 [8] Z. Ma, Z. Liu*, H. Song, et al., Synthesis of hierarchical SAPO-11 for hydroisomerization reaction in refinery processes, Applied Petrochemical Research, 2014, 4 351-358 [9] 刘振*, 马志鹏, 孙常庚, et al., 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), 2014, 38(2) 153-158 [10] Z. Liu*, Z. Du, H. Song, et al., The fabrication of porous N-doped carbon from widely available urea formaldehyde resin for carbon dioxide adsorption, Journal of Colloid and Interface Science, 2014, 416(0) 124-132 [11] Z. Liu*, Z. Du, W. Xing, et al., Facial synthesis of N-doped microporous carbon derived from urea furfural resin with high CO2 capture capacity, Materials Letters, 2014, 117(0) 273-275 [12] Z. Liu*, H. Song, Z. Feng, et al., Hierarchical meso-microporous SAPO-11 synthesis from acid assistant dealuminzation: Effect of acid strength, Applied Mechanics and Materials, 2013, 313 219-222 [13] Z. Liu*, H. Song, Z. Yan, Carbon nanoparticles templated synthesis of hierarchical SAPO-11 for enhanced hydroisomerization of n-dodecane, in: 245th ACS National Meeting and Exposition, April 7, 2013 - April 11, 2013, American Chemical Society, New Orleans, LA, United states, 2013. [14] P. Bai, R. Ullah, P. Liu, B. Liu, U.J. Etim, P. Wu, W. Xing, Y. Wang, Z. Liu, J. Li, Z. Yan, Copolymer Assisted Self-Assembly of Nanoporous Mixed Oxides for Reactive Adsorption Desulfurization, Nanoscience and Nanotechnology Letters, 8 (2016) 931-937. [15] T. Cai, W. Xing, Z. Liu, et al., Superhigh-rate capacitive performance of heteroatoms-doped double shell hollow carbon spheres, Carbon, 2015, 86 235-244 [16] C. Wang, A. Kan, 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 and Polymer Science, 2015, 293(6) 1655-1666 [17] F. Guo, W. Xing, J. Zhou, L. Zhao, J. Zeng, Z. Liu, Q. Xue, Z. Yan, Studies in the capacitance properties of diaminoalkane-intercalated graphene, Electrochim. Acta, 148 (2014) 220-227. [18] X. Gao, W. Xing, J. Zhou, G. Wang, S. Zhuo, Z. Liu, Q. Xue, Z. Yan, Superior capacitive performance of active carbons derived from Enteromorpha prolifera, Electrochim. Acta, 133 (2014) 459-466. [19] T. Cai, Y. Wang, Y. Dong, X. Li, Z. Liu, Z. Yan, Synthesis of hierarchically ordered egg-tray-like macroporous TiO2–SiO2 nanocomposites with ordered mesoporous walls, Mater. Lett., 111 (2013) 173-176.

学术兼职

中国化学会会员; Journal of Porous Material杂志特约审稿人; RSC Advances, Carbon, Applied Catalysis A等多家杂志审稿人

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