Fu Hui(Associate Professor)

Published:2022-10-26Author:王兆兴Number of Visits:26

  


  Name

Fu Hui


Academic Title

Associate Professor


Advisor Type

Master Instructor


  Department

 Department of Chemistry


Research Interests

Green Chemistry


  E-Mail

fuhui@upc.edu.cn


  Telephone

13698653216






Educational Background


1996-2000, Qufu Normal University,   Department of Chemistry, Bachelor of Chemical Education

2000-2003, Qufu Normal University,   Department of Chemistry, Master of Physical Chemistry

2003-2006, Fudan University, Department   of Chemistry, Doctor of Physical Chemistry 2014-2015, University of Texas at   Austin, Visiting Scholar











Work Experience


2006-2009, China University of   Petroleum, College of Chemistry and Chemical Engineering, Lecturer

2009-2011, China University of   Petroleum, College of Chemistry and Chemical Engineering, Associate Professor   

2011-2021, China University of   Petroleum, College of Science, Associate Professor

2022-present, China University of   Petroleum, College of Chemistry and Chemical Engineering, Associate Professor










Research Direction


[1]Design of Functionalized Ionic Liquids   with High Solubility and Efficient CO2 Activation

[2]Design of ionic liquid-based green   catalysts

[3]Preparation, Optimization and Properties   of Composite Electrode Materials

[4]Mechanism of Gas Adsorption and   Separation in Porous Materials











Research Project


[1]Research on assembly of biomass composites using carbon   dioxide/ionic liquid system, Shandong Provincial Natural Science Foundation

[2] Research on assembling composite   materials using biomass/ionic liquid system, Fundamental Research Funds for   the Central Universities

[3] Theoretical identification and   mechanism study of lattice oxygen-catalyzed propane dehydrogenation active   sites, National Natural Science Foundation of China

[4] Basic research on catalytic   conversion of basic molecules on the surface of acidic molecular sieves, Fundamental   Research Funds for the Central Universities

[5] Basic research on basic nitrogen   conversion in catalytic cracking, Fund of State Key Laboratory of Heavy Oil

[6] Supramolecular aggregation structure   and depolymerization of inferior heavy oil asphaltenes, Sinopec Project

[7] Study on the regulated synthesis of   SAPO-11 in micro-mesopores and the mass transfer mechanism of reactants in   mesopores, Shandong Provincial Natural Science Foundation

[8] Construction and synergy mechanism   of heavy oil chemical compound cold recovery flooding system, Sinopec Project

[9] Synthesis of a new type of   pre-nitrogen-phosphorus superbase and its application in organic reactions,   National Natural Science Foundation of China










Representative Papers and Patents


1. Paper

[1] Fu H.*, Hou Y., Sang H., Mu T., Lin X., Peng Z., Li P., Liu J., Carbon dioxide   capture by new DBU\-based DES: The relationship between ionicity and   absorptive capacity. AIChE   Journal,    202167e17244.

[2] Fu   H.*, Wang X., Sang H., Liu J., Lin X., Zhang L., Highly efficient   absorption of carbon dioxide by EG-assisted DBU-based deep eutectic solvents. J. CO2 Utilization,   2021, 43, 101372.

[3]Fu H.*, Sang H., Su L., Zhou X., Peng Z., Zhou   Y., Liu J., Bicyclic amidine-based deep eutectic solvents for efficient CO2   capture by multiple sites interaction, J.   Environ. Chem. Eng., 2021, 9, 106248.

[4] Zhou X., Su L., Si F., Wang Y.,   Zhang T., Wang Y., Yang C., Fu H.*,   Efficient Method to Catch Adsorption Behavior: Understanding the Effect of   Sodium Ions on Benzene/Thiophene Adsorption in Na-FAU. Adv. Theory. Simul. 2021, 2100368.

[5] Fu   H.*, Wang X., Sang H., Fan R., Han Y., Zhang J., Liu Z., The study of   bicyclic amidine-based ionic liquids as promising carbon dioxide capture   agents. J. Mol. Liq. 2020,304,   112805.

[6] Fu H.*, Wang X., Sang H.,   Hou Y., Chen X., Feng X., Dissolution behavior of microcrystalline cellulose   in DBU-based deep eutectic solvents: Insight from spectroscopic investigation   and quantum chemical calculations. J.   Mol. Liq. 2020,299, 112140.

[7] Yu D., Mou H., Fu H.*, Lan X., Wang Y., Mu T.*, Inverted Deep Eutectic Solvents   Based on Host-Guest Interactions. Chem-Asian   J. 2019, 14(23): 4183-4188.

[8]Zhao X., Lan X., Yu D., Fu H.*,   Liu Z., Mu T.*, Deep eutectic-solvothermal synthesis of nanostructured Fe3S4   for electrochemical N2 fixation under ambient conditions. Chem. Comm.2018, 54(92), 13010-13013.

[9] Fu   H.*, Wang Y., Zhang T., Yang C., Shan H., Adsorption and Separation Mechanism   of Thiophene/Benzene in MFI Zeolite: A GCMC Study. J. Phys. Chem. C 2017,121(46), 25818-25826.

[10] Cao B., Du J., Cao Z., Sun X.*, Sun   H.*, Fu H.*, DFT study on the   dissolution mechanisms of alpha-cyclodextrin and chitobiose in ionic   liquid. Carbohyd. Polym. 2017,169,227-235.

[11] Cao B., Du J., Cao Z., Sun H.*, Sun   X.*, Fu H.*, Reversibility of   imido-based ionic liquids: a theoretical and experimental study. Rsc Adv. 2017,7(19),11259-11270.

[12] Sun X., Zhou X., Cao B., Cao Z.*, Fu H.*, Green synthesis of   1-phenyl-1-ortho-xylene ethane in IL and reaction mechanism. Rsc Adv. 2017,7(25),14998-15004.

[13] Cao B., Du J., Du D., Sun H.*, Zhu   X.*, Fu H.*, Cellobiose as a model   system to reveal cellulose dissolution mechanism in acetate-based ionic liquids:   Density functional theory study substantiated by NMR spectra. Carbohyd. Polym. 2016,149,348-356.

[14]Cao B., Du J., Liu S., Zhu X., Sun X.*, Sun H.*, Fu H.*, Carbon dioxide capture by amino-functionalized ionic   liquids: DFT based theoretical analysis substantiated by FT-IR   investigation. Rsc Adv. 2016,6(13),10462-10470.

[15]Sun H., Cao B., Tian Q., Liu S., Du D., Xue Z., Fu H.*, A DFT study on the absorption mechanism of vinyl chloride   by ionic liquids. J Mol.   Liq. 2016,215:496-502.

[16]Sun X., Cao B., Zhou X., Liu S., Zhu X., Fu H.*, Theoretical and experimental studies on proton transfer   in acetate-based protic ionic liquids. J   Mol. Liq. 2016,221,254-261.

[17] Fu H.*, Duan Z.*, Henkelman G., Computational Study of Structure   and Reactivity of Oligomeric Vanadia Clusters Supported on Anatase and Rutile   TiO2 surfaces. J. Phys. Chem.   C 2015,119,15160-15167

 

2.Patent

[1]Method for quantitative analysis of   force field parameters for n-pentane/iso-pentane separation in molecular   sieves, invention patent, ZL201711138362.7










Representative Works


[1]

[2]









Awards and Honors


[1]China University of Petroleum (East   China) Excellent Class Teacher

[2] China University of Petroleum (East   China) Excellent Undergraduate Thesis Instructor










Courses Offered


Undergraduate:《Physical Chemistry》《Structural Chemistry

Postgraduate:《Structural and   Quantitative Fundamentals 》《Quantum Chemistry










Student Training


1.Supervise Postgraduate Students

Mentor 10 academic graduate students

2.Typical student

 

3.Admissions Instructions









Part-time Academic Job


[1]Reviewer for journals such as   ChemSusChem, Rsc Adv., J Mol. Liq., Sep.Puri. Technol.

[2]