Name:Yongqin Lv Title:Professor E-mail:lvyq@mail.buct.edu.cn Address:Science Building, Room: 420W |
Education background:
2001-2005, Undergraduate of Beijing University of Chemical Technology, China.
2008-2010, Visiting scholar of Commonwealth Scientific and Industrial
Research Organization (CSIRO), Australia
2005-2010, Ph.D of Beijing University of Chemical Technology, China.
Work experience :
2011-2012, Postdoctoral fellow of University of California, Berkeley, USA.
2013-2016, Associate professor of Beijing University of Chemical Technology, China.
2017 to now, Professor of Beijing University of Chemical Technology, China.
Academic title: Professor
Research areas:
Biochemical Engineering
Honors and awards:
1. Top ten teachers, Beijing University of Chemical Technology, 2015
2. Hundred Young Talents Plan, Beijing University o Chemical Technology, 2017
Research projects:
1. Engineering of artificial antibody for the early diagnosis and therapy of diseases;
2. Design of multi-enzyme nanosystems for enhanced cascade biocatalysis;
3.Information response and cooperation mechani** among bacterial communities in
artificial multicellular system;
4. Development of a biotechnological process for preparation of low molecular weight
heparin.
Representative works:
[1] Huili Zhang, Jan Baeyens, Gustavo Cáceres, Jan Degrève, Yongqin Lv*. Thermal energy storage: Recent developments and practical aspects, Progress in Energy and Combustion Science, 2016, 53, 1-40. (IF=26.467)
[2] Yongqin Lv, Tianwei Tan*, Frantisek Svec*. Molecular imprinting of proteins in polymers attached to the surface of nanomaterials for selective recognition of biomacromolecules. Biotechnology Advances, 2013, 31(8), 1172-1186. (IF= 12.831)
[3] Kaipeng Cheng, Frantisek Svec, Yongqin Lv*, Tianwei Tan*. Hierarchical Micro- and Mesoporous Zn-Based Metal-Organic Frameworks Templated by Hydrogel: Their Use for Enzyme Immobilization and Catalysis of Knoevenagel Reaction, Small, 2019, 15(44), 1902927. (IF=10.856)
[4] Liang Ma, Frantisek Svec, Yongqin Lv*, Tianwei Tan*. In situ bottom-up growth of metal-organic frameworks in crosslinked poly(ethylene oxide) layer with ultrahigh loading and superior uniform distribution, Journal of Materials Chemistry A, 2019, 7, 20293 - 20301. (IF=10.733)
[5] Yongqin Lv,* Yating Qin, Frantisek Svec, Tianwei Tan*. Molecularly imprinted pla**onic nanosensor for selective SERS detection of protein biomarkers, Biosensors and Bioelectronics, 2016, 80, 433-441. (IF= 9.518)
[6] Wen Tong, Yongqin Lv,* Frantisek Svec*. Advantage of nanoporous styrene-based monolithic structure over beads when applied for methane storage, Applied Energy, 2016, 83, 1520-1527. (IF=8.426)
[7] Yao Cao, Liyin Wen, Frantisek Svec, Tianwei Tan, Yongqin Lv*. Magnetic AuNP@Fe3O4 nanoparticles as reusable carriers for reversible enzyme immobilization, Chemical Engineering Journal, 2016, 286, 272-281. (IF= 8.355)
[8] Ma Liang, Frantisek Svec, Tianwei Tan*, Yongqin Lv*. In-situ growth of highly permeable zeolite imidazolate framework membranes on porous polymer substrate using metal chelated polyaniline as interface layer, Journal of Membrane Science, 2019, 576, 1-8. (IF=7.015)
[9] Yongqin Lv, Zhxing Lin, Frantisek Svec*. Hypercrosslinked large surface area porous polymer monoliths for hydrophilic interaction liquid chromatography of **all molecules featuring zwitterionic functionalities attached to gold nanoparticles held in layered structure, Analytical Chemistry, 2012, 84(20), 8457-8460. (IF= 6.35)
[10] Yongqin Lv*, Yao Cao, Frantisek Svec, Tianwei Tan. Porous polymer-based monolithic layers enabling pH triggered switching between superhydrophobic and superhydrophilic properties, Chemical Communications, 2014, 50, 13809-13812. (IF= 6.164)
Admission requirements:
Hard-working, cooperative, and determined.