FU YAN
School
School of Chemical Engineering and Technology
Professional Title
Associate professor
Contact Information
022-27404495
022-27404495
fuyan@tju.edu.cn
Yaguan Road 135, Jinnan District, Tianjin
300350
Brief Introduction
I received my Ph.D. degree (Biochemical Engineering) in Tianjin University (2011), and B.S. degree (Bioengineering) in Tianjin University (2006). In 2012, I started my work in the School of Chemical Engineering and Technology, Tianjin University. Now I have published 32 papers in peer-reviewed journals. My research interests lie in the development of biocompatible nanocatalysts and artificial enzymes, on the basis of molecular recognition and self-assembly mechanism of biomacromolecules.
Education Background
- Doctoral Degree| Tianjin University| Biochemical Engineering| 2011
- Master Degree| Tianjin University| Biochemical Engineering| 2008
- Bachelor Degree| Tianjin University| Bioengineering| 2006
Research Interests
- molecular recognition and self-assembly of biomacromolecules
- design of biocompatible nanocatalysts and artificial enzymes
Positions & Employments
-
2016.6-2019.12
School of Chemical Engineering & Technology | Tianjin University | Associate Professor -
2012.1-2016.6
School of Chemical Engineering & Technology | Tianjin University | Assistant Professor
Academic Achievements
- Papers
- [1] Colorimetric detection of cysteine andhomocysteine based on oligonucleotide-stabilized Pd nanozyme
- [2] Synthesis and Sensing Application of Glutathione-Capped Platinum Nanoparticles
-
- [3] Cu(II)-coordinated GpG-duplex DNA as peroxidase mimetics and its application for label-free detection of Cu2+ ions
- [4] BSA-Stabilized Pt Nanozyme for Peroxidase Mimetics and Its Application on Colorimetric Detection of Mercury(II) Ions
- [5] Guanine-rich DNA-Based Peroxidase Mimetics for Colorimetric Assays of Alkaline Phosphatase
- [6] DNA-Stabilized Bimetallic Nanozyme and Its Application on Colorimetric Assay of Biothiols
- [7] Bio-inspired enantioseparation for chiral compounds
- [8] Chiral discrimination of ofloxacin enantiomers using DNA double helix regulated by metal ions
- [9] Intrinsic Enantioselectivity of Natural Polynucleotides Modulated by Copper ions
- [10] Enantioselective separation of chiral ofloxacin using functional Cu(II)-coordinated G-rich oligonucleotides
- [11] Enantioselective resolution of chiral drugs using BSA functionalized magnetic nanoparticles
- [12] Silver Nanomaterials Regulated by Structural Competition of G-/C-Rich Oligonucleotides
- [13] Orderly Microaggregates of G-/C-Rich Oligonucleotides Associated with Spermine
- [14] Nanomaterials and nanoclusters based on DNA modulation
- [15] Glutathione-stabilized palladium nanozyme for colorimetricassay of silver(I) ions
- [16] DNA-Based Platinum Nanozymes for Peroxidase Mimetics
- Patents
- [1] New poly-nucleic acid complex comprising four distinct cytosine-rich polynucleotides, each comprising core region consisting of cytosine- or cytosine analog-bearing nucleotides, useful in pH-responsive device for measuring pH of a sample
- [2] New poly-nucleic acid complex comprising four distinct C-rich polynucleotides, used in a pH-responsive device for measuring the pH value of a sample
Team
Chemical Process Intensification (CPI)