Chuncheng Liu
Alumnus
Delft University of Technology
Department
Chemical Engineering
Contact information
Room
Building 58-E2.360
Email address
C.Liu-6@tudelft.nl
Key expertises
Heterogeneous catalysis, transient kinetics, catalyst preparation, zeolite characterization, methanol conversion.
About me
I was born in Yantai, China and received my bachelor degree in Chongqing University. Then, I travelled to Milan studying energy engineering as a master student. Later on, I worked as a temporary researcher in the Lab of Catalysis and Catalytic Processes, Politecnico di Milano for 1 year and half. I started my project with ARCCBBC from May, 2018. In my free time, I like basketball.About my research
Currently, I am working on methanol-to-hydrocarbons process in zeolite catalysts. The aim is to broad our insight into the complex reaction network by conducting the transient kinetic study. Meanwhile, by utilizing various characterization tools (UVvis, IR, probe tests, etc) for the methanol conversion in the new zeolite materials, I hope to gain a more comprehensive knowledge about the structure-performance relation in this zeolite-catalyzed process.Academic career
PhD experience
2018 – present: PhD in the group of Inorganic Systems Engineering at Delft University of Technology, the Netherlands. Under the supervision of Prof. Evgeny Pidko and Prof. Freek Kapteijn
Early Stage Researcher
2014-2016: Master degree in Politecnico di Milano, Italy
ARC CBBC publications
Revealing Main Reaction Paths to Olefins and Aromatics in Methanol-to-Hydrocarbons over H-ZSM-5 by Isotope Labeling
C. Liu, E.A. Uslamin, E.A. Pidko, and F. Kapteijn
An integrated approach to the key parameters in methanol-to-olefins reaction catalyzed by MFI/MEL zeolite materials
C. Liu, E. A. Uslamin, S. H. van Vreeswijk, I. Yarulina, S. Ganapathy, B. M. Weckhuysen, F. Kapteijn, E. A. Pidko
High Stability of Methanol to Aromatic Conversion over Bimetallic Ca,Ga-Modified ZSM-5
C. Liu, E. A. Uslamin, E. Khramenkova, E. Sireci, L. T. L. J. Ouwehand, S. Ganapathy, F. Kapteijn, E. A. Pidko
Direct discerning reaction pathways in methanol-to-hydrocarbons by transient operation – FASPA
C. Liu, E.A. Uslamin, E.A. Pidko, and F. Kapteijn
Share this page
