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更新时间:2024.08.20
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郑灵霞

| 博士 副教授 硕士生导师

单位:

职务:

研究方向:

办公地址: 莫干山校区化工5号楼C517

办公电话:

电子邮箱: lxzheng@zjut.edu.cn

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  • 个人简介


     2022-01至今    浙江工业大学 化学工程学院 副教授 

     2017-02至2022-01 浙江工业大学 化学工程学院 校聘副教授

     2014-05至2017-01 复旦大学   博士后  导师: 方晓生

     2013-09至2013-11 香港城市大学 机械生物工程系 研究助理

     2012-11至2013-05 加州大学大学圣地亚哥分校 化学和生物化学系 访问学者

     教育经历

     2009-09至2013-10  香港城市大学   博士  导师: 李扬扬

     2005-09至2009-07  安徽大学     学士

     

      研究方向:(光)电催化合成,电化学储能器件,光电探测器

      先后主持国家自然科学基金青年项目,浙江省自然科学基金探索项目和浙江省教育厅科研项目,参与浙江省重点研发择优委托项目。以第一作者/通讯作者在Adv. Energy Mater.Adv. Funct. Mater.Appl. Catal. B: Environ., SmallChem. Eng. JJ. Mater. Chem. A等国际期刊上发表论文近30余篇,授权国家发明专利6件,获中国石油化工联合会科技进步三等奖。



  • 育人成果


    2023.06 本科生优秀论文《碱性溶液中硝基芳烃的电催化加氢性能研究》2019级许天瀚(201906020923


    2023.08 浙江工业大学第十四届“浙科器杯”大学生化学竞赛 二等奖《由粉煤灰制备沸石分子筛及其吸附脱除水中氨氮的性能研究》:2021级本科生 任世璞、任斌、金张灵,胡俊楠



  • 科研项目

    (1)浙江省自然科学基金探索项目,LY21B030005,金属掺杂的缺陷态钴基硫属化合物电催化剂的性能研究,在研,主持
    (2)浙江省重点研发择优委托项目,
    2021C03018,废旧锂离子电池清洁高效回收关键技术、核心生产成套装备的研发及应用示范,在研,子课题负责人
    (3)国家自然科学基金青年项目,51702287,基于TiO2/导电聚合物异质结型柔性紫外光探测器的性能调控与机理研究,已结题,主持
    (4)浙江省教育厅科研项目,Y201738057,TiO2纳米管/导电聚合物柔性纤维状紫外光探测器的性能研究,已结题,主持
    (5)国家自然科学基金委员会,青年项目,61505033,基于杂化表面等离子体 Fabry-Perot 微腔增强型紫外光电探测器的研究,已结题,参加

  • 科研成果

    一、学术论文

    Year 2023

    (1) Xu P., Bao Z., Zhao Y., Zheng L.,* Lv Z., Shi X. Wang H.-E.,* Fang X.,* Zheng H.*Anionic Regulation and Heteroatom Doping of Ni-Based Electrocatalysts to Boost Biomass Valorization Coupled with Hydrogen Production. Advanced Energy Materials, 2023, 2303557. Doi: 10.1002/aenm.202303557.

    (2) Zheng L., Pan Y., Lu J., Zhen A., Zheng H.*Upcycling of Cathode Materials from Spent Lithium-Ion Batteries: Progress, Challenges, and Outlook. Energy & Fuel, 2023, doi: 10.1021/acs.energyfuels.3c02208.

    (3) Zheng L.,* Zhao Y., Bao Z., Xu P., Jia Y., Wang Y., Yang P., Shi X., Wu Q.,* Zheng H.. High-Valence Mo Doping and Oxygen Vacancy Engineering to Promote Morphological Evolution and Oxygen Evolution Reaction Activity. ACS Applied Materials & Interfaces, 2023, 15, 43953−43962

    (4) Zheng L., Ye, W.; Zhao, Y.; Lv, Z.; Shi, X.; Wu, Q.*; Fang. X.*; Zheng, H.* Defect-Induced Atomic Arrangement in CoFe Bimetallic Heterostructures with Boosted Oxygen Evolution Activity, Small2023, 19, 2205092.

    (5) Zheng L.*, Xu, P.;  Zhao, Y.; Bao Z.; Luo X. , Shi, X.; Wu, Q.;.*; Zheng, H.* Solar-driven upgrading of 5-hydroxymethylfurfural on BiVO4 photoanodes: Effect of TEMPO mediator and cocatalyst on reaction kinetics. Applied Catalysis B: Environmental 2023, 331, 122679.

    (6) Zheng L.*Zhao, Y.; Xu, P.;  Zhao, Y.; Lv Z.; Ye, W.; Shi, X.; Wu, Q.;.*; Zheng, H.* Geometrical configuration modulation via iron doping and defect engineering in spinel oxides for enhanced oxygen revolution activity. Chemial Engineering Journal 2023, 456, 140975.

    Year 2022

     (1) Zheng L.*, Lv, Z;  Xu, P.;  Xu H.,  Zhu M.,Zhao,Y.; Shi, X. Wang,  H-E.*;  Zheng H.*;  Defect engineering of Ni3S2 nanosheets with highly active (110)facets toward efficient electrochemical biomass valorization, Journal of Materials Chemistry A2022,10(43)23244-23253.

    (2) Zheng L.*, Zhao, Y.; Xu, P.;Lv Z.,Shi, X.  Zheng H.*;  Biomass upgrading coupled with H2 production via a nonprecious and versatile Cu-doped nickel nanotube electrocatalyst, Journal of Materials Chemistry A, 2022, 10(18)10181-10191.

    (3) Zheng L., Xu P.,  ZhaoY., Peng J., Yang P., Shi, X.  Zheng H.*;  Unique core-shell Co2(OH)2CO3@MOF nanoarrays with remarkably improved cycling life for high performance pseudocapacitorsElectrochimica Acta, 2022, 412: 140142-140151.

    (4) Zheng L., Zhao Y. Xu P.,  Pan Y., Peng J., Yang P., Wang H-E.*, Li N., Shi, X.  Zheng H.*;Copper doped CoSx@Co(OH)2 hierarchical mesoporous nanosheet arrays as binder-free electrodes for superior supercapacitors, Journal of Alloys and Compounds, 2022, 911, 165115.

    (5) Zheng L., Wang S., Wang. Y., Zhao Z., Yang P., Song, J., Shi, X.  Zheng H.*;Cooperative effect of bimetallic MOF-derived CoNi(OH)2@NiCo2S4 nanocomposite electrocatalysts with boosted oxygen evolution activity, Nanotechonology, 2022, 33, 265701.

    Year 2021

    (1) Deng. X.; Li, Z.; Liu, H.; Zhao, Y.; Zheng L.*; Shi X.; Wang, L.; Fang. X.*; Zheng, H.* Dramatic responsivity enhancement through concentrated H2SO4 treatment on PEDOT:PSS/TiO2 heterojunction fibrous photodetectors. Small, 17 (2021) 2101674.

    (2) Zheng L.; Ye W.; Yang P.; Song J.; Shi X.; Zheng H.*; Manganese doping to boost the capacitance performance of hierarchical Co9S8@Co(OH)2 nanosheet arrays, Green Energy & Environment, (2021) 7(6) 1287-1297. 

    Year 2020

    (1) Zheng L.*; Deng X.; Wang Y.; Chen J.; Fang X.*; Wang L.; Shi X.; Zheng H.*; Self-powered flexible TiO2 fibrous photodetectors: heterojunction with P3HT and boosted responsivity and selectivity by Au nanoparticles, Advanced Functional Materials, 30 (2020) 2001604. 

    (2) Zheng L.; Ye X.; Deng X.; Wang Y.; Zhao Y.; Shi Xi.; Zheng H.*; Black phosphorus quantum dot-sensitized TiO2 nanotube arrays with enriched oxygen vacancies for efficient photoelectrochemical water splitting, ACS Sustainable Chemistry & Engineering, 8 (2020) 15906-15914. 

    (3) Zheng L.#; Teng F.#; Ye X.; Zheng H.*; Fang X.*; Photo/Electrochemical applications of metal sulfide/TiO2 heterostructures, Advanced Energy Materials, 10 (2020) 1902355. 

    (4) Zheng L.; Song J.; Ye X.; Wang Y.; Shi X.; Zheng H.*; Construction of self-supported hierarchical NiCo-S nanosheet arrays for supercapacitors with ultrahigh specific capacitance, Nanoscale, 12 (2020) 13811-13821. 

    (5) Wang Y.#; Yang P.#; Zheng L.*; Shi X.; Zheng H.*; Carbon nanomaterials with sp2 or/and sp hybridization in energy conversion and storage applications: a review, Energy Storage Materials, 26 (2020) 349-370. 

    Before 2020

    (1) Zheng L.; Guan L.; Song J.; Zheng H.*; Rational design of a sandwiched structure Ni(OH)2 nanohybrid sustained by amino-functionalized graphene quantum dots for outstanding capacitance, Applied Surface Science, 480 (2019) 727-737. 

    (2) Zheng L.; Hu W.; Shu X.; Zheng H.*; Fang X.*; Ultrafine CoPx nanoparticles anchored on nitrogen doped reduced graphene oxides for superior hydrogenation in alkaline media, Advanced Materials Interfaces, 5 (2018) 1800515. 

    (3) Zheng L., Teng F., Zhang Z., Zhao B., Fang X.*. Large scale, highly efficient and self-powered UV photodetectors enabled by all-solid-state n-TiO2 nanowells/p-NiO mesoporous nanosheets heterojunction. Journal of Materials Chemistry C (2016) 10032-10039.

    (4) Zheng L., Hu K., Teng F.; Fang X.*. Novel UV-visible Photodetector in Photovoltaic Mode with Fast Response and Ultrahigh Photosensitivity Employing Se/TiO2 Nanotubes Heterojunction. Small13 (2017) 1602448.
    (5) 
    Zheng L., Han S., Liu H., Yu P., Fang X.*. Hierarchical MoS2 nanosheet@TiO2 nanotube array composites with enhanced photocatalytic and photocurrent performances. Small12 (2016) 1527.
    (6) 
    Zheng L,Yu P.,Hu K.,Teng F.; Chen, H.;  Fang X.*Scalable production, self-powered TiO2  nanowells/organic hybrids UV photodetectors with tunable performances. ACS Applied Materials & Interfaces 8 (2016) 33924-33932.
    ..........

    、授权发明专利

    (1) 郑灵霞; 郑华均; 邓晓雷; 王永智; Au/TiO2/P3HT异质结纤维及其制备方法与应用,2022-06-21, 中国,ZL 201911180974 .1.

    (2) 郑灵霞; 杨鹏举; 郑华均; 王永智 ; 高价态金属离子掺杂富含氧空位的氧化钴纳米复合材料及其制备与应用, 2022-06-21, 中国, ZL 202110575237.2

    (3) 郑灵霞 吕卓清; 郑华均; 叶伟靑 ; 一种富含氧空位的一氧化钴/铁酸钴纳米片阵列结构催化剂及其制备与应用, 2022-10-11, 中国,  ZL 202110760553.7

    (4) 郑灵霞,方晓生:二维有序 TiO2 纳米井薄膜的制备方法及在自供能光电器件中的应用。2019-10-15,中国,  ZL 201610820682X


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更新时间:2024.08.20
总访问量:10