Bai Peng(Associate Professor)

  Name：

Bai Peng

Academic Title：

Associate   Professor

Advisor Type：

Master supervisor

  Department：

Department of   Chemical Engineering

Research Interests：

Heterogeneous catalysis   and porous materials

  E-Mail：

baipeng@upc.edu.cn

  Telephone：

18254266810

◎Educational Background

1998-2002, received   a bachelor's degree from the School of Chemistry and Chemical Engineering,   University of Petroleum (East China);

2002-2004,   studied for a master's degree in the School of Chemistry and Chemical   Engineering, China University of Petroleum (East China), and in 2004, recommended   for PhD study without master degree;

2004-2008, received   PhD degree in the School of Chemistry and Chemical Engineering of China   University of Petroleum (East China), and studied in the National University   of Singapore in 2006-2007;

◎Work Experience

2008-2009,   National University of Singapore, Post-doc

2009-2012,   Scientist I at the Institute of Chemical and Engineering Sciences (ICES)   under the Agency for Science, Technology and Research (A*STAR), Singapore

2012-present,   School of Chemistry and Chemical Engineering, China University of Petroleum   (East China), Associate Professor

◎Research Direction

[1]Preparation   and application of heterogeneous catalysts, such as catalytic cracking   catalysts, light alkane dehydrogenation catalysts, selective oxidation   catalysts, n-heptane isomerization catalysts, reactive adsorption desulfurization   catalysts;

[2]The design and   preparation of porous materials, such as low-cost ultra-large pore volume   alumina, high specific surface ultra-microporous alumina, hierarchical zeolites,   etc., some products have achieved industrial pilot scale-up preparation.

◎Research Project

1. PetroChina   Science and Technology Development Project: Development and Application of   Ultra-large Mesoporous Alumina Nanofiber Support, No. 2020A-1817

2. The key   core technology project of PetroChina: Research on the regulation of   high-purity alumina pore structure, project number: 2020A-1816

3. National   Natural Science Foundation of China Youth Fund, Fundamental Research on   Design and Application of New Catalysts for Dehydrogenation of Low-Carbon   Alkanes in LPG, Project No. 21206195

4. National   key R&D project, adapting to the key technology of clean diesel   production in China VI (design of new acidic carrier and active phase and   structure-activity relationship of hydrodesulfurization performance), project   number: 2017YFB0306602

5. General   Project of Natural Science Foundation of Shandong Province, Study on the   Influence Mechanism of Surface Acidity of Alumina Carrier on Selectivity of   Hydrodesulfurization Path, Project No. ZR2017MB003

6. Fundamental   research on the development and application of nanofiber catalysts for C3-C4   alkane dehydrogenation

7. General   Project of Natural Science Foundation of Shandong Province, Basic Research on   the Application of Mesoporous Chromium Oxide/Alumina Nanofiber Catalysts in   the Dehydrogenation of Low-Carbon Alkanes, Project No. ZR2012BM014

8. Special   funds for basic scientific research business expenses of central universities   (special science and technology), optimization design of low hydrogen   consumption diesel ultra-deep hydrodesulfurization alumina carrier, research   project number: 17CX05018

9. Special   funds for basic scientific research business expenses of central   universities, research on propane dehydrogenation carbon deposition mechanism   and catalyst optimization design, project number: 14CX02050A

10. Start-up   fund for doctoral students of the university, development and application of   nanofiber catalysts for dehydrogenation of low-carbon alkanes

Participate in research projects:

1. Major   Project of National Natural Science Foundation of China, Catalytic Principle   and New Process Application of Methanol and Its Coupling Reaction, Project   No.: 21991090

2. National   Natural Science Foundation of China-PetroChina Joint Fund Project: Design and   control method of multi-component multi-activity sensitive structure of   catalytic cracking catalyst. Approval Number: U1362202

3. China   Petroleum Science and Technology Major Project: Research, Development and   Industrial Scale-Up of Key Catalytic Materials for Refining Catalysts, No.   2016E-0707

4. PetroChina   Science and Technology Development Project: New process and supporting   technology development for inferior heavy oil processing (development of   mesoporous alumina sol for catalytic cracking catalyst), approval number:   11-02-01-04.

5. PetroChina   Science and Technology Development Project: Catalytic Cracking Catalyst Novel   Aluminum Sol Preparation Technology and Fine Powder Utilization Technology,   No. 2013A-2106.

6. PetroChina   Advanced Reserve Project: Research and Development of a New Generation of   Refining Catalytic Materials (Preparation of a New Generation of Mesoporous   Pure Phase γ-Al₂O₃ Support Materials), No.2014A-2111.

Presided over the education reform project:

1. Shandong   Province Graduate Education Quality Course, Catalysis Principle, Project No.:   SDYKC19024, 2019

2. The   Principles of Catalysis Graduate Students' Core Course Construction   Project in English, 2014

◎Representative Papers and Patents

1. Paper

[1]     Wu, P.; He, Z.; Liu, Y.; Song, L.;   Wang, C.; Muhumuza, E.; Bai, P.; Zhao, L.; Mintova, S.; Yan, Z.   Compatibility between Activity and Selectivity in Catalytic Oxidation of   Benzyl Alcohol with Au–Pd Nanoparticles through Redox Switching of SnOx. ACS   Applied Materials & Interfaces 2021, 13, 49780.

[2]     Etim, U. J.; Bai, P.; Gazit, O.   M.; Zhong, Z., Low-Temperature Heterogeneous Oxidation Catalysis and   Molecular Oxygen Activation. Catalysis Reviews 2021, 1-187.

[3]     Liu, B.; Bai, P.; Wang, Y.;   Dong, Z.; Wu, P.; Mintova, S.; Yan, Z., Highly stable Ni/ZnO‐Al2O3 adsorbent   promoted by TiO₂ for reactive adsorption desulfurization. EcoMat   2021, 3:e12114.

[4]     Wu, P.; Liu, H.; Cao, Y.; Xi, S.; Li,   Z.; He, Z.; Song, L.; Xu, J.; Bai, P.; Zhao, L., Mesostructured   cellular foam silica supported Au–Pt nanoalloy: Enrichment of d-state   electrons for promoting the catalytic synergy. Microporous and   Mesoporous Materials 2021, 316, 110982.

[5]     Muhumuza, E.; Wu, P.; Nan, T.; Zhao,   L.; Bai, P.; Mintova, S.; Yan, Z., Perovskite-Type LaCoO3 as an   Efficient and Green Catalyst for Sustainable Partial Oxidation of   Cyclohexane. Ind. Eng. Chem. Res. 2020, 59, 21322-21332.

[6]     Gu, Y.; Liu, H.; Yang, M.; Ma, Z.;   Zhao, L.; Xing, W.; Wu, P.; Liu, X.; Mintova, S.; Bai, P., Highly   stable phosphine modified VOx/Al2O3 catalyst in propane dehydrogenation. Applied   Catalysis B: Environmental 2020, 119089.

[7]     Hu, H.; Cai, T.; Bai, P.; Xu,   J.; Ge, S.; Hu, H.; Wu, M.; Xue, Q.; Yan, Z.; Gao, X., Small graphite   nanoflakes as an advanced cathode material for aluminum ion batteries. Chemical   Communications 2020, 56 (10), 1593-1596.

[8]     Wu, P.; Song, L.; Wang, Y.; Liu, X.;   He, Z.; Bai, P.; Yan, Z., High-performance benzyl alcohol oxidation   catalyst: Au-Pd alloy with ZrO2 as promoter. Appl. Surf. Sci. 2020，537, 148059.

[9]     P. Wu, Y. Cao, L. Zhao, Y. Wang, Z.   He, W. Xing, P. Bai, S. Mintova,   Z. Yan, Formation of PdO on Au–Pd bimetallic catalysts and the effect on   benzyl alcohol oxidation, Journal of Catalysis., 2019, 375,   32-43.

[10]Bai, P.; Etim, U. J.;   Yan, Z.; * Mintova, S.; Zhang, Z.; Zhong, Z.; Gao, X., Fluid catalytic   cracking technology: current status and recent discoveries on catalyst   contamination. Catalysis Reviews2019, 61, 333-450.

[11]Etim, U.; Bai, P.; Wang, Y.; Subhan, F.; Liu,   Y.; Yan, Z., Mechanistic insights into structural and surface variations in   Y-type Zeolites upon Interaction with Binders. Applied Catalysis A: General 2019, 547,137-149.

[12]M. Xie, Y. Li,   U.J. Etim, H. Lou, W. Xing, P. Wu, X. Liu, P. Bai, Z. Yan, Enhanced Catalytic   Performance of the FCC Catalyst with an Alumina Matrix Modified by the   Zeolite Y Structure-Directing Agent, Industrial Engineering Chemical Research,   58 (2019) 5455-5463.

[13]Etim, U. J.;   Bai, P.; Ullah, R.; Subhan, F.; Yan, Z., Vanadium contamination of FCC   catalyst: Understanding the destruction and passivation mechanisms. Applied Catalysis A: General2018,555, 108-117.

[14]Gao, L.; Shi,   Z.; Etim, U. J.; Wu, P.; Han, D.; Xing, W.; Mintova, S.; Bai, P.; Yan, Z., * Beta-MCM-41 micro-mesoporous catalysts in the   hydroisomerization of n-heptane: Definition of an indexed isomerization   factor as a performance descriptor. Microporous   Mesoporous Materials2019,277, 17-28.

[15]Bai, P.; Xie, M.; Etim,   U. J.; Xing, W.; Wu, P.; Zhang, Y.; Liu, B.; Wang, Y.; Qiao, K.; Yan, Z.   Zeolite Y Mother Liquor Modified γ-Al2O3 with Enhanced Brönsted Acidity   as Active Matrix to Improve the Performance of Fluid Catalytic Cracking   Catalyst. Industrial &   Engineering Chemistry Research,2018, 57: 1389-1398.

[16]Wu, P.; Cao,   Y.; Wang, Y.; Xing, W.; Zhong, Z.; Bai, P.; Yan, Z., Ultrastable bimetallic   catalyst with tuned surface electronic properties for highly selective   oxidation of cyclohexane. Applied   Surface Science2018,457, 580-590.

[17]D. Liu, P. Bai,* P. Wu, D. Han, Y. Chai, Z.   Yan,* Surface chemistry and catalytic performance of chromia/alumina   catalysts derived from different potassium impregnation sequences,   Applied Surface Science, 2015,351, 250-259.

[18]Bai, P.; Liu, B.;   Wu, P.; Ullah, R.; Xing, W.; Yan, Z.* Remarkably high performance of   clew-like ZnO superstructure in reactive adsorption desulfurization. Science China Materials,2017,60: 985-994.

[19]Wu, P.; Ma,   Z.; Etim, U. J.; Yan, Z.-F.; Bai, P.   X. S. Zhao, Synthesis of monodispersed colloidal particles via a   hydrothermally promoted double hydrolysis approach. CrystEngComm,2017, 19: 552-561.

[20]Rooh Ullah,   Zhanquan Zhang, Peng Bai,*   Pingping Wu, Dezhi Han, U. J. Etim, and Zifeng Yan,* One-pot Cation-anion   Double Hydrolysis Derived Ni/ZnO-Al2O3 absorbent for Reactive Adsorption   Desulfurization, Industrial & Engineering Chemistry Research, 2016, 55,   3751-3758.

[21]Bai, P.;*Ma, Z.; Li,   T.; Tian, Y.; Zhang, Z.; Zhong, Z.; Xing, W.; Wu, P.; Liu, X.-m.; Yan, Z.,   Relationship between Surface Chemistry and Catalytic Performance of   Mesoporous γ-Al₂O₃ Supported VO_X Catalyst in   Catalytic Dehydrogenation of Propane. ACS   Applied Materials & Interfaces,2016, 8, 25979–25990.

[22]P. Bai, P. Wu, W.   Xing, D. Liu, L. Zhao, Y. Wang, B. Xu, Z. Yan, X.S. Zhao, Synthesis and   catalytic properties of ZSM-5 zeolite with hierarchical pores prepared in the   presence of n-hexyltrimethylammonium bromide, Journal of Materials Chemistry   A, 2015,3,18586-18597.

[23]P. Bai, P. Wu, Z.   Yan,* X. S. Zhao,* Cation-anion double hydrolysis derived mesoporous γ-Al₂O₃   as an environmentally friendly and efficient aldol reaction catalyst, Journal   of Materials Chemistry, 2009, 19, 1554.

[24]P. Bai, P. Wu, G.   Zhao, Z. Yan,* X. S. Zhao,* Cation-anion double hydrolysis derived mesoporous   γ-Al₂O₃ as an environmentally friendly and efficient   aldol reaction catalyst, Journal of Materials Chemistry,   2008, 18, 74-76.

[25]P. Bai, F. Su, P.   Wu, L. Wang, F. Y. Lee, L. Lv, Z-F. Yan,* X. S. Zhao,* Copolymer-controlled   homogeneous precipitation for the synthesis of porous microfibers of alumina,   Langmuir,   2007, 23, 4599-4605.

[26]P. Bai, P. Wu, Z.   Yan,* J. Zhou, X. S. Zhao,* Self-Assembly   of Clewlike ZnO Superstructures in the Presence of Copolymer, Journal of Physical Chemistry C,   2007, 111, 9729-9733.

2.Patent

[1]       Bai, P.; Yi, Q.; Wu, P.; Yan, Z., A   Porous Alumina Nanofiber and Preparation Method thereof, 2019.9.11, China,   ZL201910858193.7.

[2]       Bai, P.; Yi, Q.; Wu, P.; Yan, Z., A   Process for Synthesizing Monoclinic Phase Basic Aluminium Aluminum Carbonate   and Its Pyrolysis for the Preparation of Porous Alumina, 2019.11.22, China,   CN 201911152177.2.

[3]       Bai, P.; Yang, M.; Wu, P.; Yan, Z., A   Chemical Chain Oxidation Dehydrogenation to Olefins Process of Low Carbon   Alkanes, 2018.1.3, China, CN201810003672.6.

[4]       Bai, P.; Yan, Z.; Xing, W.; Liu, X.;   Xie, M.; Wang, Y.; Zhang, Y.; Zhang, Z.; Gao, X., A Modified Alumina Carrier   of Y Molecular Sieve Mother Liquor and Its Preparation Method and   Application, 2016.11.28, China, ZL 201611064737.5.

[5]       Bai, P.; Wu, P.; Xu, B.; Liu, X.; Xie,   M.; Yan, Z., A B-acid-rich mesoporous alumina and its preparation method and   application, 2016.11.28, China, ZL 201611071354.0.

[6]       Yan, Z.; P Bai, P.; Xie, M.; Xing, W.;   Liu, X.; Wang, Y.; Wang, Y.; Zhang, Z.; Gao, X.,A Silicon   Modified Alumina and Its Preparation Method and Application, 2016.12.09,   China, ZL201611126412.5.

[7]       Bai, P. P.; Xie, M.; Liu, X.; Xing, W.;   Yan, Z., Method and Application of Modified Alumina of a Y-type Molecular   Sieve Structure Guide, 2018.8.21, China, ZL201810959934.6.

[8]       Bai, P.; Wang, Y.; Wu, P.; Yan, Z.,   Synthesis of Ultraporous Basic Ammonium Aluminum Carbonate and Method for   Preparing Alumina by Pyrolysis, 2018.1.10, China, ZL201810021925.2.

[9]       Gao, X.; Huang, J.; Xing, W.; Bai, P.;   Yan, Z., Preparation Method and Application of Petroleum Coke Mesoporous   Carbon, 2016.9.28, China, ZL 201610860042.1.

[10]Bai, P; Wang,   Y.; Wu, P.; Yan, Z., A Green Process for Synthesizing Basic Ammonium Aluminum   Carbonate and Its Pyrolysis for The Preparation of High Specific Surface   Alumina, 2018.8.21, China, CN201810951667.8.

[11]Bai, P.; Zhang,   Y.; Wu, P.; Xing, W.; Wang, Y.; Joko; Liu, Z.; Liu, X.; Yan, Z., A Method for   Preparing Graded Pore Y-type Molecular Sieves using Rice Husk as Raw   Material, 2018.1.23, China, ZL201810065964.2.

[12]Bai, P.; Wu,   P.; Yan, Z., Preparation Method of Monodisperse Colloidal Particles,   2015.7.1, China, ZL 201510093880.6.

[13]Bai, P.;   Zhuang, H.; Wu, P.; Xing, W.; Yan, Z., A Preparation Method for γ-Al₂O₃   with large mesoporous pore volume,2016.7.21, China,ZL201610581190.X.

[14]Bai, P.; Zhuang,   H.; Wu, P.; Xing, W.; Yan, Z., A Method for Synthesizing Mesoporous γ- Al₂O₃   with Excellent Performance, 2016.7.21, China, ZL201610578868.9.

[15]J. Bu, Bai, P.,   P. Sharratt, carbon dioxide capture with regeneration of salt, WO   2012/050530, 2012

[16]Xu, B., Bai,   P., Xu, Y., Yan, Z., Liu, X., Zhang, X., A method for reviving spent   catalysts for catalytic cracking with SiCl4 gas-solid reaction,   ZL201510175992, 2015.

[17]Wu, P., Bai,   P., A preparation method of a highly dispersed supported precious metal alloy   catalyst, CN201510093596, 2015.

[18]Yan, Z., Feng,   R., Bai, P.; Liu, X., Xu, B., Qiao, K., Wang, Y., Gao, Qi., Zhang, Z.. Low L   acid and high B acid catalytic cracking catalyst and its preparation method,   ZL201510045326, 2015.

[19]Wang, Y., Yan,   Z., Li, Y., Xu, B., Liu, X., Qiao, K., Bai, P., Gao, S, Zhang, Z.,   Montmorillonite-based ZSM-5 molecular sieve composite and its preparation   method, ZL201510044730.6., 2015.

[20]Yan, Z., Bai,   P., Qiao, K., Liu, S., Liu, D., Tan, Z., Gao, Q., Zhang, Z., Hu, Q.,   Preparation method of B acid-rich mesoporous alumina, CN 103896318, 2014

◎Representative Works

[1]Catalysis in   Oil Refinery, China University of Petroleum (East China) Press

[2]   Nanotechnology in Oil and Gas Industries(Nanotechnology Applications in   Petroleum Refining), Springer

[3] Functional   catalysts for catalytic removal of formaldehyde from air, DE GRUYTER

◎Awards and Honors

[1] Awards

2017 University-level   Undergraduate Teaching Achievement Award, Second Prize

2013 The first   school-level postgraduate education and teaching achievement award, the   second prize

2010 National   100 Excellent Doctoral Dissertation Nomination Award

2008 Excellent   Doctoral Dissertation of China University of Petroleum

2008 Best   Poster Award, 3rd MRS-S Conference on Advanced Materials, IMRE, Singapore

[2] Honors

2013 Backbone   teacher of the school's Young Teacher Talent Construction   Project, China University of Petroleum (East China)

2007 Top Ten   Academics, China University of Petroleum (East China)

◎Courses Offered

Undergraduate：《Chemical   Reaction Engineering》, 《Principles of Catalysis》

Postgraduate：《Principles of   Catalysis》,《The Principles of Catalysis》

◎Student Training

1.Supervise Postgraduate Students

Instruct and   assist in guiding 1 postdoctoral fellow, 7 doctoral students, 33 academic   postgraduates, and 4 professional master students. There are 25 graduate   students, of which 8 went to famous universities and research institutes at   home and abroad to study for doctoral degrees, and 2 went to work in foreign   universities.

2.Typical student：

Song Lei    2018 graduate student won the 2021   National Scholarship

Ubong Jerome   Etim  2013 doctoral student won the   2016 National Scholarship

Rooh   Ullah   2013 doctoral student won the   2016 National Scholarship

Ma   Zhipeng   2014 graduate student, won   the 2016 National Scholarship

Liu Daolan   2013 graduate student, won the 2015   National Scholarship

3.Admissions   Instructions：

Master:   Chemical Engineering and Technology; Materials and Chemical Engineering.

Students who   are curious and interested in scientific research are welcome to apply!

◎Part-time Academic Job

[1]Member of Chinese Chemical Society, Member of Singapore Catalysis (SCS)   Association

[2] Invited   reviewer for J. Mater. Chem, Chem. Eng. J. Micropor. Mesopor. Mater, Catal.   Today and other international journals.