从事固/液界面环境微生物驱动的电化学合成氨及其胞外电子传递机制、有机小分子的电化学催化等领域研究，目前主持在研国家自然科学基金面上项目1项，已主持或参与完成多项国家自然科学青年基金、福建省自然科学基金面上项目和教育部重点实验室开放课题等；近年来在Environment International，Biosensors and Bioelectronics和Chemical Engineering Journal等权威期刊上发表SCI论文40余篇，指导学生科研和实践工作；课题组能提供技能培训和深造机会，欢迎有志学生加入课题组！

科研项目：

1 热电极驱动基于胞外电子吸收的非光合电化学活性菌的固氮机制  国家自然科学基金面上项目（2021.01-2024.12）主持，已结题

2 新型功能微生物制剂的制备及应用技术（2024.05-2026.05）横向课题，主持,  在研

3 电网类环境风险技术咨询专项（2023.08-2024.08）横向课题，主持,  已结题

4 金华市公益技术应用研究项目（2023.06-2025.05）主持，在研

5 电致化学发光法用于食品中致病菌的鉴别及分析检测  教育部重点实验室开放课题（2020.05-2021.05）主持，已结题

6 电化学活性微生物/含铁矿物界面的电子传导机制-晶格效应研究  省自然科学基金面上项目（2018.04-2021.04）主持，已结题

7 碳基热电极原位检测食品中脓绿杆菌  教育部重点实验室开放课题（2018.05-2019.05） 主持，已结题

8 基于多吡啶铁/钴配合物的雌激素非自由基型氧化降解机理  国家自然科学青年基金项目（2017.01-2019.12）参与，已结题

9 基于直接胞外电子吸收的古菌Methanosarcina barkeri产甲烷机制  国家自然科学青年基金项目（2017.01-2019.12）参与，已结题

10 疏水界面泛醌/黄素共介导的电化学活性菌的胞外电子传递机制  国家自然科学青年基金项目（2017.01-2019.12）主持，已结题

发表论文（部分）

[35] Preparation of PdNi@NH₂-GO catalysts with enhanced electrocatalytic activity and stability for ethanol oxidation. International Journal of Hydrogen Energy, 2025, Accepted.

[34] Electrocatalytic synergistic degradation of tetracycline by low-energy-consumption Mn_0.22-NiS nanosheet electrodes: interface mechanism and toxicity. Chemical Engineering Journal, 2025, 165514.

[33] Pb uptake, translocation and allocation in Iris pseudacorus from arbuscular mycorrhizal fungi-assisted constructed wetlands. Chemical Engineering Journal, 2025, 518, 164888.

[32] Engineering an Ag2Se@PANi core-shell nanozymes-Klebsiella pasteurii hybrid system with enhanced ammonia synthesis. Bioresource Technology, 2025,132436

[31] Graphene-doped hydrogels with enhanced conductivity and stretchability for all-weather wearable devices. Advanced Functional Materials, 2025, 2425014.

[30] Understanding arbuscular mycorrhizal fungi's contribution to  hexabromocyclododecane metabolism: Pathways and ecological  implications in contaminated environments. Journal of Hazardous Materials, 2025, 488, 137396.

[29] Enhancing low C/N wastewater treatment in constructed wetlands using  microbial fuel cells and sulfur. Chemical Engineering Journal, 2025, 505, 159148.

[28] Enhancement of low C/N wastewater treatment and plant growth in sulfur-based constructed wetlands through arbuscular mycorrhizal fungi inoculation. Journal of Water Process Engineering, 2025, 69, 106799.

[27] Enhancement of PFAS stress tolerance and wastewater treatment efficiency by arbuscular mycorrhizal Fungi in constructed wetlands. Environmental Research. 2024, 263, 120148.

[26] Integrated induction of silver resistance determinants and production of extracellular polymeric substances in Cupriavidus metallidurans BS1 in response to silver ions and silver nanoparticles, Chemosphere, 2024, 366, 143503.

[25] Nickel sulfde nanorods encapsulated in nitrogen-doped carbon on nickel foam in situ derived from Saccharomycetes cerevisiae for the selective oxidation of biomass. Chemical Engineering Journal, 2024, 499, 155922.

[24] Soil microbial community composition and nitrogen enrichment responses to the operation of electric power substation. Frontiers in Microbiology, 2024, 15, 1453162

[23] Efficient electrocatalytic oxidation of 5-hydroxymethylfurfural to 2,5-furandicarboxylic acid with Fe-Ni3S2@NiFe-PBA nanocubes. Electrochimica Acta, 2024, 495, 144495

[22] Biosynthesis of silver nanoparticles using Burkholderia contaminans ZCC and mechanistic analysis at the proteome level. Ecotoxicology and Environmental Safety, 2024, 278, 116425

[21] Fundamentals on electrochemical kinetics of hydrogen redox reaction for monobasic and weak polyacid acids. The Journal of Physical Chemistry C, 2023, 127, 19415

[20] Antioxidant CeO2 doped with carbon dots enhance ammonia production by an electroactive Azospirillum humicireducens SgZ-5T. Chemosphere, 2023, 341, 140094.

[19] Breaking the barriers: Engineering the crystalline amorphous interface of Fe3O4@Fe electrode material for unparalleled energy storage and water splitting efficiency. International Journal of Hydrogen Energy, 2024, 49: 103

[18] Temperature dependent electrochemical reduction of CO2 at temperature controllable-rotating disk electrode modified with bismuth film. Electrochimica Acta, 2023, 461 :142627

[17] Free iron oxides modulate the surface properties of Benggang soil on Southern China_ insights into erosive mechanisms. Frontiers in Environmental Science, 2024(12): 1429684

[16] Impact of soil surface properties on soil swelling of different soil layers in collapsing wall of Benggang. PLOS ONE, 2023,18 (2):e0280729

[15] Selenite reduced uptake translocation of cadmium via regulation of assembles and interactions of pectins, hemicelluloses, lignins, callose and Casparian strips in rice roots. Journal of Hazardous Materials, 2023, 448 :130812

[14] Fundamentals on kinetics of hydrogen redox reaction at a polycrystalline platinum disk electrode. Journal of Electroanalytical Chemistry, 2022, 922 :116788

[13] Identification of a Novel Chromate and Selenite Reductase FesR in Alishewanella sp. WH16-1. Frontiers in Microbiology, 2022,(13): 834293

[12] Au(III)-induced extracellular electron transfer by Burkholderia contaminans ZCC for the bio-recovery of gold nanoparticles. Environmental Research, 2022, 210 :112910

[11] Three-dimensional self-supporting superstructured double-sided nanoneedles arrays of iron carbide nanoclusters embedded in manganese, nitrogen co-doped carbon for highly efficient oxygen reduction reaction. Journal of Colloid and Interface Science, 2022, 614: 655-665

[10] Fundamentals on kinetics of electrochemical reduction of CO2 at a bismuth electrode. Journal of Electroanalytical Chemistry, 2022, 904 :115924

[9] Extrapolymeric substances (EPS) in Mucilaginibacter rubeus P2 displayed efficient metal(loid) bio-adsorption and production was induced by copper and zinc. Chemosphere, 2022,291(1):132712

[8] Liposoluble quinone promotes the reduction of hydrophobic mineral and extracellular electron transfer of Shewanella oneidensis MR-1. The Innovation, 2021, 2(2):100104

[7] Characterization of cadmium resistance mechanism and plant growth promoting potential of Burkholderia contaminans strain ZCC. Ecotoxicology and Environmental Safety, 2021, 211: 111914

[6] NanoFe3O4 as solid electron shuttles to accelerate acetotrophic Methanogenesis by Methanosarcina barkeri. Frontiers in Microbiology, 2019(10): 388

[5] Electrochemiluminescence for the identification of electrochemically active bacteria. Biosensors and Bioelectronics, 2019,137: 222–228

[4] Extracellular electron transfer of Enterobacter cloacae SgZ-5T via bimediators for the biorecovery of palladium as nanorods. Environment International, 2019,123: 1-9

[3] L-proline assisted solvothermal preparation of Cu-rich rhombic dodecahedral PtCu nanoframes as advanced electrocatalysts for oxygen reduction and hydrogen evolution reactions. Electrochimica Acta, 2019(299): 89-97

[2] Shewanella oneidensis MR-1 affects the mechanism of Cd electrodeposition on glassy carbon electrode. Acta Chim. Sinica, 2018,76: 543-548

[1] Flavins mediate extracellular electron transfer in gram-positive Bacillus megaterium strain LLD-1. Bioelectrochemistry, 2018,119: 196-202

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移动电话 : b35f024fc2e6f5eb1fb9bbc4e3070d1f466c1951d55bc55b6ce98249ed61d950f1c80619cbec7cc3d936610d6b9d88670a4b9dfdadb42f81457c2b7fd05c0208a7fffac2f6d40bd4e13d0a8197b21db02ac484faa0b3c747874c2bb5d5179447f263681a6763af57f693202d8ee7e144eb86dc7e293f441fc544c9888f966295

邮箱 : 0d9b3d0b94f8a7aaa282fad6210d8412d35ec5d025546f3fef82cfd267156bffe720a980c8eed65978e1c92b74c1630de4158b285d2c62605e10f51e9f541e1e65573afb2b635fff834390309d867406310db362a01d1045bebf7ada90aa1af234fbf1e181181ac7280c61a9b84d2dc1476a4293ef3940967136848765a584b8

2012.9 -- 2015.9
厦门大学       物理化学       博士研究生毕业       博士学位       博士

2008.9 -- 2011.7
福州大学       食品安全与药物化学       硕士研究生毕业       硕士学位       硕士

2003.9 -- 2008.7
湖南工程学院       化学工程与工艺       大学本科毕业       学士学位       本科

2021.9 -- 至今

浙江师范大学      地理与环境科学学院      在岗

2016.1 -- 2021.9

福建农林大学      资源与环境学院      离职

2012.1 -- 2012.8

龙岩市质量技术监督局检验所      食品检验科      离职

2011.7 -- 2011.12

厦门迈士通集团公司      研究院      离职