Zhen Liu（Associate Professor）

Published：2022-10-24Author：刘振Number of Visits：103


Name：	Zhen Liu
Academic Title：	Associate Professor
Advisor Type：	Academic/Engineering Master
Department：	Chemical Engineering
Research Interests：	Catalysts and catalytic materials
E-Mail：	zhenliu@upc.edu.cn
Telephone：	+86-18561602890 (WeChat Account)

◎Educational Background
2015-2016: Visiting scholar, Material research institute, Pennsylvania State University, USA. 2005-2010: PhD, Chemical Engineering Technology，Hunan University, China. 2001-2005: B.Eng, Chemical Engineering and processing，Hunan University, China.





◎Work Experience
2011-2015: Lecturer, China University of Petroleum (East China), College of Chemistry and Chemical Engineering, Department of Chemical Engineering； 2016-todate: Associate Professor, China University of Petroleum (East China), College of Chemistry and Chemical Engineering, Department of Chemical Engineering.




◎Research Direction
[1]Design and synthesis of new functional zeolite and carbon materials. [2] C1 chemical and catalysis: Methanol to olefin, CO₂ hydrogenation, F-T reaction, Catalytic cracking, etc. [3] Design and synthesis catalyst for low carbon olefin production. [4] Clean oil production technology (Catalytic Cracking, Isomerization, Adsorption desulfurization).





◎Research Project
[1] Independent Innovation Research Program: Structure-sensitive component design and regulation of hierarchical ZSM-5 zeolite and its mechanism on FCC reaction, 2015-05-01—2017-06-01 [2] Enterprise Cooperation Projects: Crude Oil Desulfurization Technologies Screening Study, 2016-09-28—2019-12-27 [3] Enterprise Cooperation Projects: A new technique for synthesis of ultra-stable meso-microporous MesAPO-11, 2017-02-01—2019-06-30 [4] Youth Fund of Natural Science Foundation of Shandong Province: Synthesis of porous carbon materials by controllable doping of nitrogen atoms and enhancement mechanism of CO2 adsorption, 2017-08-01—2019-12-31 [5] Independent Innovation Research Program: Acid site controllable synthesis of SAPO-34 and application on MTO reaction, 2018-01-01—2020-12-31 [6] Enterprise Cooperation Projects: Study on the reactivation technology of FCC waste catalyst, 2018-07-05—2018-07-31 [7] Enterprise Cooperation Projects: Study on deactivation of industrial Fischer-Tropsch synthesis catalyst, 2019-05-01—2021-05-01 [8] Key Research and Development Program of Shandong Province: Synthesis of Enteromorpha based porous carbon material and its application in adsorptive desulfurization of gasoline, 2019-07-01—2021-07-01 [9] General Project of Natural Science Foundation of Shandong Province: Hydrothermal stability of MeAPO-11 molecular sieves enhanced by framework atom coordination environment, 2019-07-01—2022-06-30 [10] Enterprise Cooperation Projects: Research and industrial scale-up development of key catalytic materials for refinery catalysts, 2019-09-01—2020-08-30 [11] National Key Research and Development Program: Key technologies of chemicals and liquid fuels synthesis from biomass waste, 2020-01-01—2022-12-31 [12] Major Project of Ningxia Key Research and Development Program: Study on multiscale diffusion and reaction kinetics of complex heterogeneous catalytic system in Fischer-Tropsch synthesis process, 2022-01-01—2024-12-01. （Updated: February 2022）




◎Representative Papers and Patents
1. Paper [1] H. Li, & Z. Liu, et al., Deactivation behavior investigation on commercial precipitated iron Fischer–Tropsch catalyst for long time reaction. Journal of Porous Materials, 2022, 29: 307-15. [2] Z. Liu, & Z.F. Yan, et al., Mother liquor induced preparation of SAPO-34 zeolite for MTO reaction. Catal Today, 2020, 358: 109-15. [3] F. Subhan, & Z. Liu, et al., Highly dispersive lanthanum oxide fabricated in confined space of SBA-15 for adsorptive desulfurization, Chemical Engineering Journal,2020, 384: 123271. [4] 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. [5] 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. [6] 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. [7] 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. [8] 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. [9] 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. [10] Z. Liu, & Z.F. Yan, et al. Synthesis of SAPO-34 zeolite induced by composite template and its MTO properties, China Industrial Catalysis, 26 (2018) 50-55. [11] 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. [12] 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. [13] 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. [14] 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. [15] 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. [16] 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. [17] 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. [18] 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. [19] 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. [20] 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. [21] Z. Liu, & Z.F. Yan, et al.Hierarchical SAPO-11 preparation in the presence of glucose, Mater. Lett., 154 (2015) 116-119. [22] W. 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. [23] 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. [24] W. Xing, Z. Liu, & Z.F. Yan, et al. Studies in the capacitance properties of diaminoalkane-intercalated graphene, Electrochim. Acta, 148 (2014) 220-227. [25] 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. [26] 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. [27] 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. [28] 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. [29] 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. [30] 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. [31] 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. [32] 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. [33] 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. [34] 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. [35] 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. 2.Patent [1] A denitration catalyst and a preparation method thereof and a denitration method thereof, CN Patent, 201911064944.4 (2019). [2] A core-shell structure hydroisomerization catalyst and its preparation and application, CN Patent, 201911063968.8 (2019). [3] A method for preparing Y molecular sieve rich in secondary pores, CN Patent, 201910768541.1 (2019). [4] A catalyst for enhancing production of naphtha from hydrocracking, CN Patent, 201910771257.X (2019). [5] Mo2C/C nanocomposite preparation method and its application on positive electrode of lithium carbon dioxide battery, CN Patent, CN201810585083.3 (2018). [6] A novel aluminum ion battery and its preparation method, CN Patent, CN201810608796.7 (2018). [7] A method for preparing hierarchical Y molecular sieve from rice husk, CN Patent, 201810065964.2 (2018). [8] A method for preparing novel SAPO-11/ZSM-5 zeolite, CN Patent, 201710383736.5 (2017). [9] A novel ultra-microporous carbon material and its preparation method, CN Patent, 201711402101.1 (2017). [10] A novel microporous carbon material and its preparation method, CN Patent, 201711377292.0 (2017). [11] Preparation and application of flexible self-supported porous carbon @ lamellar bimetallic hydroxide composites, CN Patent, 201610860809.0 (2016). [12] Preparation and characterization of SAPO-11 molecular sieves with variable acidity, CN Patent, 201510891786.5 (2016). [13] Catalytic cracking of SiCl4 with ammonium exchange catalyst for catalytic cracking, CN Patent, 201510176129.2 (2015). [14] Catalytic cracking catalyst for increasing iso-alkane-rich gasoline production, CN Patent, 201410130865.X (2014). （Updated: February 2022）





◎Courses Offered
Undergraduate：《Principles of chemical engineering》《basics of chemical engineering》《C1 Chemistry and Chemical Engineering》《Chemical process and equipment》 Postgraduate：《Catalyst Preparation and characterization》




◎Student Training
1.Supervise Postgraduate Students Co-supervised 3 doctoral students, supervised 20 academic masters and 7 engineering Masters, including 16 graduated students（Updated: February 2022） 2.Admissions Instructions： Academic Master and Engineering Master of Chemical Engineering and Technology International Master of Chemical Engineering and Technology



◎Part-time Academic Job
[1] Member of New Material Committee, Chemical Society of China [2] Editor of Journal of Porous Material [3] Reviewers of RSC Advances, Carbon, Applied Catalysis A et, al.

+86 86981731 66 Changjiang West Road, Huangdao District,Qingdao City, Shandong Province weimengji@upc.edu.cn

On-campus links