1）Molecular structure design and micro/nanostructure engineering of novel metal–organic framework materials;

2）Electrochemical capture of gas molecules;

3）In vivo biosensing based on biological enzymes;

4）In vitro sensing and detection of gas biomarkers related to major diseases.

2016-09--2019-06   Fuzhou University   Ph.D.  

2015-07--2019-06   Institute of Chemistry, Chinese Academy of Sciences   Ph.D. (Joint Program)  

2013-09--2016-06   Fuzhou University   M.S.  

2009-09--2013-06   Beijing University of Chemical Technology   B.S.

2025-01~Present, Institute of Basic Medicine and Cancer, Chinese Academy of Sciences, Principal Investigator
2024-05~2024-12, Northwestern University, USA, Postdoctoral Researcher
2020-10~2024-04, Technische Universität Dresden, Germany, Postdoctoral Researcher (Humboldt Fellow)
2019-07~2020-08, Institute of Chemistry, Chinese Academy of Sciences, Research Assistant

（1） Highly sensitive electrochemiluminescence glucose sensor under alkaline conditions based on glucose oxidase@conductive metal-organic framework nanocapsules, SENSORS AND ACTUATORS B-CHEMICAL, 2025
（2） Electrochemistry sensing of ascorbic acid based on conductive metal-organic framework (Cu3 (benzenehexathiol)) nanosheets modified electrode, Analytica Chimica Acta, 2025
（3） Synthesizing Conductive Metal-Organic FrameworkNanosheets for High-Performing Chemiresistive Sensors, ACS APPLIED MATERIALS & INTERFACES, 2025
（4） A general synthesis of nanostructured conductive metal-organic frameworks from insulating MOF precursors for supercapacitors and chemiresistive sensors, Angewandte Chemie International Edition, 2024
（5） Raising enzymatic stability during biocatalysis with hierarchically hollow two-dimensional MOF nanocapsules, Cell Reports Physical Science, 2024, 
（6） Enhanced photothermal conversion in 3D stacked metal-organic framework nanosheets, Aggregate, 2024
（7） Hierarchical conductive metal-organic framework films enabling efficient interfacial mass transfer, Nature Communications, 2023
（8）  In-situ solvothermal polymerization of metal-organicframework/carbon-nitrogen nanosheet-coated solid-phase microextraction fiber for highly sensitivedetection of pesticide residues in black tea, 色谱, 2020
（9） A Metal-Organic Framework Nanosheet-Assembled Frame Film with High Permeability and Stability, ADVANCED SCIENCE, 2020
（10） Effect of structure: A new insight into nanoparticle assemblies from inanimate to animate, Science advances, 2020
（11） Deformable metal-organic framework nanosheets for heterogeneous catalytic reactions, Journal of the American Chemical Society, 2020
（12） Nanoassembled interface for dynamics tailoring, Accounts of Chemical Research, 2020
（13） Magnetic gamma-cyclodextrin polymer with compatible cavity promote the magnetic solid-phase extraction of microcystins in water samples, ANALYTICACHIMICAACTA, 2019
（14） Coordination mode engineering in stacked-nanosheet metal-organic frameworks to enhance catalytic reactivity and structural robustness, NATURE COMMUNICATIONS, 2019
（15） Magnetic γ-cyclodextrin polymer with compatible cavity promote the magnetic solid-phase extraction of microcystins in water samples, ANALYTICA CHIMICA ACTA, 2019
（16） Effective Extraction of Domoic Acid from Seafood Based on Postsynthetic-Modified Magnetic Zeolite Imidazolate Framework-8 Particles, ANALYTICAL CHEMISTRY, 2019
（17） Moisture stable Ni-Zn MOF/g-C3N4 nanoflowers: A highly efficient adsorbent for solid-phase microextraction of PAHs, JOURNAL OF CHROMATOGRAPHY A, 2018
（18） In situ hydrothermal growth of ZnO/g-C3N4 nanoflowers coated solid-phase microextraction fibers coupled with GC-MS for determination of pesticides residues, ANALYTICA CHIMICA ACTA, 2016
（19） In situ solvothermal synthesis of metal-organic framework coated fiber for highly sensitive solid-phase microextraction of polycyclic aromatic hydrocarbons, JOURNAL OF CHROMATOGRAPHY A, 2016
（20） Protonated mesoporous graphitic carbon nitride for rapid and highly efficient removal of microcystins, RSC ADVANCES, 2015

(1) A rapid preparation method for self-supporting hydroxide films and metal-organic framework films, Invention Patent, 2019, 2nd Author, Patent No.: CN109776831A

(2) A carboxylated porous carbon nitride nanomaterial and its solid-phase microextraction coating fiber and application, Invention Patent, 2019, 3rd Author, Patent No.: CN109364901A

(3) A simple and rapid preparation method and application of covalent organic framework compound solid-phase microextraction coating, Authorized Patent, 2018, 8th Author, Patent No.: CN108543519A

(4) A preparation method and application of MOF-based magnetic nitrogen-doped carbon nanotubes, Invention Patent, 2018, 3rd Author, Patent No.: CN108525635A

(5) Preparation and application of magnetic metal-organic framework nanosheet materials, Invention Patent, 2018, 3rd Author, Patent No.: CN108452782A

(6) Preparation method for fish-scale-like metal oxide nano-2D materials grown on nanosheets, Authorized Patent, 2018, 3rd Author, Patent No.: CN108452783A

(7) Solid-phase microextraction device and application prepared by N-doped carbon nanotube coatings synthesized using MOFs as precursors, Authorized Patent, 2018, 3rd Author, Patent No.: CN108435138A

(8) A honeycomb-like metal-organic framework nanosheet and its preparation method, Authorized Patent, 2018, 3rd Author, Patent No.: CN108395540A

(9) An ultrathin 2D carbon nitride oxide nanosheet and its preparation and application, Invention Patent, 2018, 3rd Author, Patent No.: CN108469483A

(10) 3D layered graphitic carbon nitride/MOF composite materials and preparation method thereof, Invention Patent, 2016, 2nd Author, Patent No.: CN105903439A

(11) Method and device for in-situ synthesis of metal-organic framework compound coatings, Invention Patent, 2015, 2nd Author, Patent No.: CN104841407A