职称/职务：教授/盐城工学院副校长

电子邮箱：qfangzhang@gmail.com

研究方向：材料物理、材料科学与工程领域

个人简介：

张勤芳，中共党员，理学博士，教授，博士生导师，主要研究领域为材料信息学及新能源材料。现任盐城工学院副校长、日本理化学研究所客员研究员、日本学术振兴会外籍聘用研究员( 教授级)、江苏省欧美同学会理事、江苏省物理学会常务理事、教育部建材行业职业教育教学指导委员会委员、第六期“333 工程”第二层次培养对象，获得盐城青年五四奖章。主持国防科技创新特区项目1 项、国家自然科学基金7 项、科技部外国专家项目2 项、省优秀青年基金项1 项、教育部留学归国人员启动基金1 项。2018 年获江苏省科学技术三等奖，2020 年获中国轻工业联合会科技进步三等奖，2021 年获中国仪器仪表学会科学技术进步二等奖。发表高水平SCI 科研论文190 余篇，其中ESI 热点论文1 篇，ESI 高被引论文5 篇，授权国家发明专利20 项。获批省级教研课题4 项，大学生创新创业项目4 项，其中国家级2 项；发表教研论文7 篇，省级重点教材1 部，获批省级一流课程1 门。领导的“微纳复合材料可控制备及应用创新团队”获第二届江苏省“十佳研究生导师团队”提名奖。指导的学生获得“挑战杯”黑科技专项国赛一等奖。

教育经历：

1.2000.09-2005.06

南京大学

凝聚态物理

硕博连读

工作经历：

10.2022.07-至今

9. 2021.08-2022.07

8.2017.12-2021.07

7. 2012.03-至今

6. 2015.01-2017.12

5. 2017.03-2017.05

4. 2015.09-2015.10

3. 2012.12-2013.02

2. 2009.07-2011.12

1. 2005.07-2009.07

盐城工学院

盐城工学院产业技术研究院

盐城工学院材料科学与工程学院

日本理化学研究所

盐城工学院江苏省新型环保重点实验室

奥地利维也纳工业大学固体物理所

意大利国际理论物理中心

日本JSPS

日本理化学研究所

荷兰特温特大学

副校长

党总支书记、院长

院长

客员研究员

副主任

访问科学家

访问科学家

外籍聘用研究员

特别研究员

博士后

科研获奖：

5. 高分辨质量选择团簇束流实验装置及在线催化测试系统，中国仪器仪表学会科学技术进步奖，二等奖，2021年；

4. Z 型g-C3N4/(BiO)2(OH)xCl2-x   异质结光催化活性增强机制研究，盐城市自然科学优秀学术成果奖，三等奖，2021年；

3.复合材料裁切机快速成型关键技术及应用，江苏省轻工业科学技术奖，二等奖，排名第3，2020年；

2.装配式建筑生态新材料和新技术及其应用，江苏省科学技术奖，三等奖，排名第6,2018年；

1.高分辨质量选择团簇束流实验装置及在线催化测试系统，盐城市科技进步奖，二等奖，主持，2017年。

主要科研项目：

23. 国家自然科学基金面上项目，超原子构造Bi基卤氧化物的制备及其光催化应用研究，2025.1-2028.12，52万元，负责人；

22. 国家自然科学基金面上项目，AuCu团簇修饰Bi基卤氧化物的可控制备及光催化CO2还原机制研究，2023.1-2026.12，55万元，负责人；

21. 科技部外国专家项目（外国青年人才计划），用于能量转换和存储系统的异质结构/异质结基电极/电催化剂，2023.1-2024.12，20万元，负责人；

20. 科技部外国专家项目（外国青年人才计划），团簇-MOFs复合材料的制备及光电催化CO2还原机制的研究，2022.1-2023.12，27万元，负责人；

19. 江苏省自然科学基金项目，支撑合金团簇的制备及其CO2光电催化还原机制的研究，2021.7-2024.6，10万元，负责人；

18. 江苏省政策引导类计划项目，金属团簇多铁性的电子关联机制研究，2021.8-2022.8,10万元，负责人；

17. 科技部外国专家项目（外国青年人才计划），金属团簇多铁性的电子关联机制研究，2021.1-2022.12,30万元，负责人；

16. 中央军委科学技术委员会国防科技创新特区项目，原子团簇-金属有机骨架复合材料，2019.1-2020.10，100万元，负责人；

15. 国家自然科学基金面上项目，自旋轨道耦合莫特绝缘体的量子磁性调控，2015.1-2018.12，100万元，主持；

14. 国家外专局，亚非青年科学家来华工作计划项目，2016.9-2020.12，90万元，主持；

13.国家自然科学基金青年基金项目，LaAlO₃/SrTiO₃异质界面奇异物理性质的理论研究，2013.1-2015.12，25万元，主持；

12. 国家自然科学基金外国青年学者研究基金，Computational characterization of   graphene oxide for field effect transistor nanosensors，2018.1-2019.12，30万元，中方合作者；

11.国家自然科学基金外国青年学者研究基金，Monte Carlo Simulations of   Magneto-caloric Materials，2019.1-2020.12，39.6万元，中方合作者；

10.国家自科基金国际合作与交流项目，5d过渡金属氧化物异质结的电子关联效应，2016.9-2018.2，3万元，主持；

9. 国家基金委国际合作局，从原子模拟到模型哈密顿量，2016.3，1.5万元，主持；

8.留学回国人员科研启动基金项目，复杂氧化物异质界面电子结构和多体效应的理论研究，2013.4-2015.4，3万元，主持；

7. 江苏省科技厅优秀青年基金，过渡金属氧化物功能材料的物性研究，2016.7-2019.6，50万元，主持；

6.江苏省自然科学青年基金，LaAlO₃/SrTiO₃异质界面的电子结构和多体效应的理论研究，2012.7-2015.6，20万元，主持；

5. 光驰科技（上海）有限公司横向项目，新型车载功能薄膜的开发及应用，2019.1-2020.12，100万元，主持；

4. 国家科技支撑计划项目，岛礁工程快速构筑材料、构件研究与应用示范，2014.10-2017.12，100万元，排名第6；

3. 江苏省高校自然科学研究重大项目，5d过渡金属氧化物的制备与物性研究，2014.1-2016.12，30万元，主要参与；

2. 国家863高技术项目，衣康酸下游分离提取及污染物无害化处理，2015.1-2017.12，80万元，参与；

1. 国家自然科学基金面上项目，金属团簇奇异铁磁、铁电和多铁性的电子关联机制，2018.1-2022.12，62万元，主要参与。

人才称号及获奖：

12. 2021年成为江苏省第六期“333高层次人才培养工程”第二层次培养对象；

11. 2020年荣获第二届江苏省“十佳研究生导师团队”提名奖；

10. 2019年荣获第八届“盐城青年五四奖章”；

9. 2019年认定盐城工学院硕导资格；

8. 2019年认定江苏科技大学博导资格；

7. 2018年认定ADDIS ABABA UNIVERSITY博导资格；

6. 2017年成为江苏省优秀青年基金获得者；

5. 2014年成为江苏省高校“青蓝工程”科技创新团队带头人培养对象；

4. 2014年认定南京大学博士生指导资格；

3. 2014年认定江苏科技大学学术型硕导资格；

2. 2013年成为江苏省“333高层次人才培养工程”第三层次培养对象；

1. 2012年成为江苏省“六大人才高峰”高层次人才培养对象； 

期刊论文：

[169] 张勤芳，通讯作者，Promising sensors for pharmaceutical pollutant adsorption using Clar's goblet-based 2D membranes.，Scientific Reports，2024；

[168] 张勤芳，通讯作者，MXenes quantum dots for efficient pesticide adsorbents: A first principal study of the adsorption capability，Materials Science and Engineering: B，2024；

[167] 张勤芳，通讯作者，Tailoring TiO2 finite nanotubes: Doping-induced modulation of electronic, optical, and hydrogen storage properties，Fuel，2024；

[166] 张勤芳，通讯作者，Chemically functionalized AlN quantum dots for effective sensing and removal of methanol, ethanol, and formaldehyde: A first principle study，Chemical Physics Impact，2024；

[165] 张勤芳，通讯作者，Theoretical Investigation of Quantum Dot- Biphenylene Nanocomposites for Potential Nonenzymatic Glucose Biomarker Detection Using DFT Simulations，Journal of Alloys and Compounds Communications，2024；

[164] 张勤芳，通讯作者，Investigating adsorption characteristics and electronic properties of Clar’s Goblet and beyond，Chemical Physics Letters，2024；

[163] 张勤芳，通讯作者，Highly photocatalytic materials based on the decoration of poly(O-chloroaniline) with molybdenum trichalcogenide oxide for green hydrogen generation from Red Sea water，Green Processing and Synthesis，2024；

[162] 张勤芳，通讯作者，Insights into the electronic, optical, and catalytic properties of finite biphenylene nanoribbons: First-principles study，Computational and Theoretical Chemistry，2024；

[161] 张勤芳，通讯作者，Facile gamma-ray induced synthesis of reduced graphene oxide decorated with silver nanoparticles: a green approach for symmetric supercapacitor applications，Fullerenes, Nanotubes and Carbon Nanostructures，2024；

[160] 张勤芳，通讯作者，Novel nanotubes based on methylene-bridged cycloparaphenyleneas as highly efficient catalysts for oxygen evolution reaction，Computational and Theoretical Chemistry，2024；

[159] 张勤芳，通讯作者，Simulation of novel CFTS solar cells with SCAPS-1D software，Journal of Optics，2024；

[158] 张勤芳，通讯作者，Stable selenium nickel-iron electrocatalyst for oxygen evolution reaction in alkaline and natural seawater，Journal of Colloid and Interface Science，2024；

[157] 张勤芳，通讯作者，Novel nanobelts constructed from hexagonal graphene quantum dots: Electronic, optical, and sensing properties，Results in Physics，2024；

[156] 张勤芳，通讯作者，Enhanced reactivity and selective adsorption: Unveiling the potential of metal-decorated graphene membranes for biosensing，Materials Science and Engineering: B，2024；

[155] 张勤芳，通讯作者，Facile gamma-ray induced synthesis of reduced graphene oxide decorated with silver nanoparticles: a green approach for symmetric supercapacitor applications，Fullerenes, Nanotubes and Carbon Nanostructures，2024；

[154] 张勤芳，通讯作者，Insights into the electronic, optical, and catalytic properties of finite biphenylene nanoribbons: First-principles study，Computational and Theoretical Chemistry，2024；

[153] 张勤芳，通讯作者，GeSe nanoclusters as potential drug delivery agent for anti-cancer drugs: First-principles study，Computational and Theoretical Chemistry，2024；

[152] 张勤芳，通讯作者，Two-dimensional heterostars from nanographene and group-III nitrides for efficient spin filters: Spintronic and quantum transport properties，Results in Physics，2024；

[151] 张勤芳，通讯作者，2D biphenylene-based nanostructures as prospective drug delivery carriers of carvedilol and levosim: DFT study，Chemical Physics Letters，2024；

[150] 张勤芳，通讯作者，Highly efficient spin field-effect transistor based on nanographene and hBN heterostructures: spintronic and quantum transport properties，Chinese Journal of Physics，2024；

[149] 张勤芳，通讯作者，Dual-metal hydroxide heterojunction and chayote fruit biomass–derived hierarchical porous carbon for augmenting the performance of hybrid supercapacitors，Journal of Energy Storage，2024；

[148] 张勤芳，通讯作者，2d van der Waal SiC/borophene heterostructure as a promising anode for high-capacity Li ion battery: First principles study，FlatChem，2024；

[147] 张勤芳，通讯作者，Enhancement of optical and photocatalytic properties of polyethylene oxide/polyvinylpyrrolidone blend reinforced with Ti3C2 Mxene，Synthetic Metals，2024；

[146] 张勤芳，通讯作者，Spin-polarized quantum transport in latterly connected zigzag-triangular graphene nanodots，Physica E: Low-dimensional Systems and Nanostructures，2024；

[145] 张勤芳，通讯作者，Manipulating the overall capacitance of hierarchical porous carbons via structure- and pore-tailoring approach，Carbon，2024；

[144] 张勤芳，通讯作者，Maximizing urea-/hydrazine-assisted electrolytic hydrogen production by defective nickel copper selenide nanostructures，FlatChem，2024；

[143] 张勤芳，通讯作者，Simulation of novel CFTS solar cells with SCAPS-1D software，Journal of Optics，2024；

[142] 张勤芳，通讯作者，In situ silver clusters decorated Bi24O31Cl10 nanorods for boosting photo-thermal catalytic activities，Journal of Materials Science & Technology，2024；

[141] 张勤芳，通讯作者，Oxygen vacancy assisted the enhancement of photocatalytic activities in ultrathin Bi7Fe2Ti2O17Cl nanosheets，International Journal of Hydrogen Energy，2024；

[140] 张勤芳，通讯作者，Novel S-scheme Bi24O31Cl10/Bi7Fe2Ti2O17Cl heterojunction for efficient and stable photocatalytic activitie，Materials Today Energy，2024；

[139] 张勤芳，通讯作者，Recent advanced optical adsorption regulation strategies in solar-driven evaporation for efficient clean water production: A review，Materials Research Bulletin，2024；

[138] 张勤芳，通讯作者，A photothermal MoS2 decorated biomass carbon-based aerogel with a directionally aligned porous structure for mitigating heavy metal stress under seawater acidification.，RSC Advances，2024；

[137] 张勤芳，通讯作者，Bioinspired 1T-MoS2-based aerogel beads for efficient freshwater harvesting in harsh environments，Journal of Colloid and Interface Science，2024；

[136] 张勤芳，通讯作者，Unraveling the role of Cu2+ induced Jahn-Teller distortion and electron occupation alternation in modulating electronic and optical properties of CuxFe1-xFe2O4，Ceramics International，2024；

[135] 张勤芳，通讯作者，Surface treatment of VO2 films with enhancing the modulation of phase transition and thermochromic performance，Colloids and Surfaces A: Physicochemical，2024；

[134] 张勤芳，通讯作者，Tailoring the morphologies of molybdenum selenides with improving their electrochemical performances for supercapacitors，Journal of Energy Storage，2024；

[133] 张勤芳，通讯作者，2D/2D Ti3C2 MXene/HTiNbO5 nanosheets Schottky heterojunction for boosting photothermal-assisted solar-driven photodegradation of tetracycline hydrochloride，Journal of Materials Science & Technology，2024；

[132] 张勤芳，通讯作者，Single transition atom-doped antimonene as a highly efficient electrocatalyst for the nitrogen reduction reaction: a DFT study，Materials Advances，2024；

[131] 张勤芳，通讯作者，Magnetic properties of laterally connected super-zethrene chains: Insights from spin-polarized calculations，Journal of Magnetism and Magnetic Materials，2024；

[130] 张勤芳，通讯作者，Insights into the Electronic, Optical, and Anti-Corrosion Properties of Two-Dimensional ZnO: First-Principles Study，Crystals，2024；

[129] 张勤芳，通讯作者，Exploring the structural, electronic, and hydrogen storage properties of hexagonal boron nitride and carbon nanotubes: insights from single-walled to doped double-walled configurations，Scientific Reports，2024；

[128] 张勤芳，通讯作者，La0.5−xScxSr0.5MnO3−δ cathodes for proton-conducting solid oxide fuel cells: Taking advantage of the secondary phase，Journal of Advanced Ceramics，2024；

[127] 张勤芳，通讯作者，Manipulating Nb-doped SrFeO3−δ with excellent performance for proton-conducting solid oxide fuel cells，Journal of Advanced Ceramics，2024；

[126] 张勤芳，通讯作者，Novel nanotubes based on methylene-bridged cycloparaphenyleneas as highly efficient catalysts for oxygen evolution reaction，Computational and Theoretical Chemistry，2024；

[125] 张勤芳，通讯作者，New two-dimensional membranes based on hexagonal graphene nanodots for the separation of seawater trace metals: a first-principles study，Journal of Materials Science，2024；

[124] 张勤芳，通讯作者，Band engineering of single-halogen layered Sillén oxyhalide, BaBiO2X (X = Cl, Br, and I): The role of lone-pair effect in photocatalysts，Journal of Alloys and Compounds，2024；

[123] 张勤芳，通讯作者，Phosphorization Engineering of CoP/NiCoP Nanoneedle Arrays for Energy Storage，ACS Applied Nano Materials，2024；

[122] 张勤芳，通讯作者，Fabrication of self-supporting substrates: Conversion into cathodes for high-performance hybrid supercapacitors，Journal of Energy Storage，2024；

[121] 张勤芳，通讯作者，Interfacial Engineering of Ultrathin 2D/2D NiPS3/C3N5 Heterojunctions for Boosting Photocatalytic H2 Evolution，Acta Phys. -Chim. Sin.，2024；

[120] 张勤芳，通讯作者，S-scheme NiO/C3N5 heterojunctions with enhanced interfacial electric field for boosting photothermal-assisted photocatalytic H2 and H2O2 production，Journal of Colloid and Interface Science，2024；

[119] 张勤芳，通讯作者，Bio-derived 1T-MoS2/C-based aerogel by synergistic solar evaporation and tetracyclines removal for efficient freshwater generatio，Ceramics International，2023；

[118] 张勤芳，通讯作者，Effects of pressure on structural, mechanical, dynamics and thermal properties of Rankinite: Insights from first-principles calculations，Vacuum，2023；

[117] 张勤芳，通讯作者，Model-Based Analysis and Optimization of Acidic Tin–Iron Flow Batteries，Batteries，2023；

[116] 张勤芳，通讯作者，New insights into the synthesis of Sillén–Aurivillius oxyhalides: molten salts induce interlayer halogen competing reaction，Journal of Materials Chemistry A，2023；

[115] 张勤芳，通讯作者，Modification of carbon felt electrode by MnO@C from metal-organic framework for vanadium flow battery，Journal of Power Sources，2023；

[114] 张勤芳，通讯作者，Numerical Analysis and Optimization of Flow Rate for Vanadium Flow Battery Incorporating Temperature Effect，Batteries，2023；

[113] 张勤芳，通讯作者，Synthesis of nanosphere-like vanadium selenide cathode for high performance asymmetric hybrid supercapacitors，Electrochimica Acta，2023；

[112] 张勤芳，通讯作者，Two-Dimensional ZnS Quantum Dots for Gas Sensors: Electronic and Adsorption Properties，Journal of Electronic Materials，2023；

[111] 张勤芳，通讯作者，First-Principles Study of MoS2, WS2, and NbS2 Quantum Dots: Electronic Properties and Hydrogen Evolution Reaction，Crystals，2023；

[110] 张勤芳，通讯作者，Frequency agility of dielectric resonator using top‐loaded rotatable anisotropic metasurface，Microwave and Optical Technology Letters，2023；

[109] 张勤芳，通讯作者，Electronic and gas sensing properties of ultrathin TiO2 quantum dots: A first-principles study，Results in Physics，2023；

[108] 张勤芳，通讯作者，Electronic and optical properties of chemically modified 2D GaAs nanoribbons，Scientific Reports，2023；

[107] 张勤芳，通讯作者，Theoretical investigation of the V2BX2 (X = S, Se, and Te) monolayers as anode materials for Na-ion batteries，Materials Today Communications，2023；

[106] 张勤芳，通讯作者，Electronic and Optical Properties of Finite Gallium Sulfide Nano Ribbons: A First-Principles Study，Crystals，2023；

[105] 张勤芳，通讯作者，Spintronic properties of 2D heterostructures from laterally connected graphene and hBN quantum dots，Chemical Physics Letters，2023；

[104] 张勤芳，通讯作者，Facile gamma-ray induced synthesis of reduced graphene oxide decorated with silver nanoparticles: a green approach for symmetric supercapacitor applications，Fullerenes, Nanotubes and Carbon Nanostructures，2023；

[103] 张勤芳，通讯作者，Heterostructured transition metal chalcogenides with strategic heterointerfaces for electrochemical energy conversion/Storage，Coordination Chemistry Reviews，2023；

[102] 张勤芳，通讯作者，Theoretical investigation of size and shape dependent melting temperature of transition metal clusters，Solid State Communications，2023；

[101] 张勤芳，通讯作者，Recent advances in 2D materials for smart textiles，FlatChem，2023；

[100] 张勤芳，通讯作者，Nanoporous graphene quantum dots constructed from nanoribbon superlattices with controllable pore morphology and size for wastewater treatment，Surfaces and Interfaces，2023；

[99] 张勤芳，通讯作者，Exploring the Potential of Chemically Modified Graphyne Nanodots as an Efficient Adsorbent and Sensitive Detector of Environmental Contaminants: A First Principles Study，Journal of Fluorescence，2023；

[98] 张勤芳，通讯作者，Modulation of VO 2 metal-insulator transition by co-doping of hydrogen and oxygen vacancy，Solar Energy Materials and Solar Cells，2023；

[97] 张勤芳，通讯作者，Rationally designed Ti3C2 MXene/CaIn2S4 Schottky heterojunction for enhanced photocatalytic Cr (VI) reduction: Performance, influence factors and mechanism，Journal of Materials Science & Technology, 2023；

[96] 张勤芳，通讯作者，Exploring the structural, electronic, optical and mechanical properties of Mo5Si3C under pressure，International Journal of Refractory Metals and Hard Materials，2023；

[95] 张勤芳，通讯作者，Interfacial engineering of Ti3C2 MXene/CdIn2S4 Schottky heterojunctions for boosting visible-light H2 evolution and Cr (VI) reduction，Journal of Colloid and Interface Science, 2023；

[94] 张勤芳，通讯作者，Recent advances in designing ZnIn2S4-based heterostructured photocatalysts for hydrogen evolution，Journal of Materials Science & Technology, 2023；

[93] 张勤芳，通讯作者，Coupled ferroelectric polarization in novelty Sillén–Aurivillius BaBi4TiNbO11Cl material for photocatalysis，Journal of Alloys and Compounds, 2023；

[92] 张勤芳，通讯作者，Mathematical modeling and in-depth analysis of 10 kW-classiron-vanadium flow batteries，Journal of Power Sources, 2023；

[91] 张勤芳，通讯作者，Analysis of the structural, elastic constants, electronic, optical, dynamical, and thermodynamic in dicalcium silicate with various pressures，vacuum,2023；

[90] 张勤芳，通讯作者，Model-Based Analysis and Optimization of Acidic Tin–Iron Flow Batteries，Batteries, 2023；

[89] 张勤芳，通讯作者，One-Pot Fabrication of 2D/2D CdIn2S4/In2S3 Heterojunction for Boosting Photocatalytic Cr(VI) Reduction，Catalysts，2023；

[88] 张勤芳，通讯作者，Preparation of Two-Dimensional Layered CeO2/Bi2O3 Composites for Efficient Photocatalytic Desulfurization，Catalysts，2023；

[87] 张勤芳，通讯作者，Band Gap Engineering in Quadruple-Layered Sillén–Aurivillius Perovskite Oxychlorides Bi7Fe2Ti2O17X (X = Cl, Br, I) for Enhanced Photocatalytic Performance，Catalysts，2023；

[86] 张勤芳，通讯作者，Interfacial interaction between graphene and ferromagnets: First principles study，Physica B: Condensed Matter，2023；

[85] 张勤芳，通讯作者，Magnetic and Electronic Properties of Edge-Modified Triangular WS2 and MoS2 Quantum Dots，Crystals，2023；

[84] 张勤芳，通讯作者，Revealing the nature of the graphene on-off control of the electrolyte gating effect in WO3 film phase transition，Thin Solid Films，2023；

[83] 张勤芳，通讯作者，First Principles Study of Atomic Adsorption on (111) and (100) Surfaces of Iridium，Chinese Journal of Chemical Physics，2023；

[82] 张勤芳，通讯作者，Remarkably Enhanced Red Upconversion Emission in β-NaLuF₄:Er,Tm Microcrystals via Ion Exchange，Inorganic Chemistry，2022；

[81] 张勤芳，通讯作者，Anomalous magnetic and transport properties of laterally connected graphene quantum dot，Journal of Materials Science，2022；

[80] 张勤芳，通讯作者，All-Weather Freshwater and Electricity Simultaneous Generation by Coupled Solar Energy and Convection，ACS Applied Materials & Interfaces，2022；

[79] 张勤芳，通讯作者，First-principles investigation of V2CSe2 MXene as a potential anode material for non-lithium metal ion batteries，Current Applied Physics，2022；

[78] 张勤芳，通讯作者，Vibrationally-resolved absorption and fluorescence spectra of chemically modified 2D hexagonal boron nitride quantum dots，Chemical Physics Letters，2022；

[77] 张勤芳，通讯作者，Modeling and Optimization of Vanadium Flow Batteries Incorporating Variable Permeability and Resistance，Journal of The Electrochemical Society，2022；

[76] 张勤芳，通讯作者，Modulation of the lipophilicity and molecular size of thiosemicarbazone inhibitors to regulate tyrosinase activity，Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy，2022；

[75] 张勤芳，通讯作者，Tunable Sensing and Transport Properties of Doped Hexagonal Boron Nitride Quantum Dots for Efficient Gas Sensors，Crystals，2022；

[74] 张勤芳，通讯作者，Ag-Pd alloy decorated ZnIn2S4 microspheres with optimal Schottky barrier height for boosting visible-light-driven hydrogen evolution，Journal of Materials Science & Technology，2022；

[73] 张勤芳，通讯作者，Enhancements of thermoelectric performance in n-type Bi2Te3-based nanocomposites through incorporating 2D Mxenes，Journal of the European Ceramic Society，2022；

[72] 张勤芳，通讯作者，Compact and Low-Profile Linear-/Circular-Polarization Dielectric Resonator Antennas with Extended Bandwidths，IEEE Open Journal of Antennas and Propagation，2022；

[71] 张勤芳，通讯作者，Enhancing the hydrogen evolution reaction on MoS2 flakes by cold plasma treatment，Electrochemistry Communications，2022；

[70] 张勤芳，通讯作者，Synthesis of small-sized hexagonal NaREF4 (RE= Yb, Lu) nanocrystals through accelerating phase transformation，Journal of Luminescence，2022；

[69] 张勤芳，通讯作者，Ammonia-induced surface microstructure reconstruction on ACIGS thin film at room temperature，Materials Science in Semiconductor Processing，2022；

[68] 张勤芳，通讯作者，High-capacity and cycling-stable anode for sodium ion batteries constructed from SnS2/MWCNTs nanocomposites，Journal of Alloys and Compounds，2022；

[67] 张勤芳，通讯作者，A Facile Strategy to Realize Rapid and Heavily Hydrogen-Doped VO2 and Study of Hydrogen Ion Diffusion Behavior，Journal of Physical ChemistryC，2022；

[66] 张勤芳，通讯作者，Visible light driven g-C3N4/Bi4NbO8X (XCl, Br) heterojunction photocatalyst for the degradation of organic pollutants，Journal of Alloys and Compounds，2022；

[65] 张勤芳，通讯作者，Facile Synthesis of Sillén-Aurivillius Layered Oxide Bi7Fe2Ti2O17Cl with Efficient Photocatalytic Performance for Degradation of Tetracycline，Catalysts，2022；

[64] 张勤芳，通讯作者，A-site Mn2+ tuned magnetism and electrical transport properties in the transition-metal-only perovskite oxide MnCu3Mn4O12，Physical Review B，2022；

[63] 张勤芳，通讯作者，Electronic, optical, and catalytic properties of finite antimonene nanoribbons: First principles study，Physica Scripta，2022；

[62] 张勤芳，通讯作者，Properties and applications of quantum dots derived from two-dimensional material，Advances in Physics: X，2022；

[61] 张勤芳，通讯作者，Boosting thermoelectric performance in Cu3SbS4-based compounds through incorporating SiC nanoparticles，Journal of Materials Science: Materials in Electronics，2022；

[60] 张勤芳，通讯作者，Flux synthesis of Bi2MO4Cl (M= Gd and Nd) nanosheets for high-efficiency photocatalytic oxygen evolution under visible light，Journal of Materials Science，2022；

[59] 张勤芳，通讯作者，Electronic and   adsorption properties of extended chevron and cove-edged graphene nanoribbons，Physica E: Low-dimensional Systems and Nanostructures，2021；

[58] 张勤芳，通讯作者，The electronic,   adsorption, and catalytic properties of Bi-, Sb-, and As-nanoclusters，Catalysis Today，2021；

[57] 张勤芳，通讯作者，Boosted spintronic   properties in triangular Si-based nanoflakes，Physica E: Low-dimensional Systems   and Nanostructures，2021；

[56] 张勤芳，通讯作者，Stoichiometry-dependent   photocatalytic performance of bismuth-based oxychlorides BixOyCl，Applied Surface Science，2021；

[55] 张勤芳，通讯作者，Two-dimensional quantum   dots for highly efficient heterojunction solar cells，Journal of Colloid and   Interface Science，2021；

[54] 张勤芳，通讯作者，Tunable electro-optical   properties of doped chiral graphene nanoribbons，Chemical Physics，2021；

[53] 张勤芳，通讯作者，Two-dimensional Si2BN   nanoflakes for efficient removal of heavy metals，Chemical Physics Letters，2021；

[52] 张勤芳，通讯作者，Interaction of hydrated   metals with chemically modified hexagonal boron nitride quantum dots:   wastewater treatment and water splitting，Physical Chemistry Chemical Physics，2020；

[51] 张勤芳，通讯作者，Hole Doping to Enhance   the Photocatalytic Activity of Bi4NbO8Cl，Catalysts，2020；

[50] 张勤芳，通讯作者，Efficient charge   separation and visible-light response of two-dimensional Janus group-III   monochalcogenide multilayers，Catalysis Science & Technology，2020；

[49] 张勤芳，通讯作者，Rapid synthesis of   triple-layered cylindrical ZnO@SiO₂@Ag core-shell nanostructures   for photocatalytic applications，JOURNAL OF NANOPARTICLE RESEARCH，2020；

[48] 张勤芳，通讯作者，2DTitanium/niobium metal   oxide-based materials for photocatalytic application，SOLAR RRL，2020；

[47] 张勤芳，通讯作者，Enhanced photocatalytic   activity over g-C₃N₄/(BiO)₂(OH)_xCl_2-x   Z-scheme heterojunction,APPLIED SURFACE SCIENCE, 2020;

[46] 张勤芳，通讯作者，Modulation of VO₂   metal-insulator transition by co-doping of hydrogen and oxygen vacancy，SOLAR ENERGY MATERIALS   AND SOLAR CELLS，2020;

[45] 张勤芳，通讯作者，Theoretical investigation   on defect engineering for tuning photocatalytic activities in isostructural   Sc(x)mCu(y)nO(z-1) (m=Ca,n=Ni)，MATERIALS SCIENCE AND ENGINEERING   B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS，2020;

[44] 张勤芳，通讯作者，Constructing n-doped KNb₃O₈/g-C₃N₄composite   for efficient photocatalytic h-2 generation and degradation under visible   light irradiation，CATALYSIS LETTERS，2020；

[43] 张勤芳，通讯作者，Molecular and   dissociative adsorption of CO and SO on the surface of Ir(111)，AIP ADVANCES，2020；

[42] 张勤芳，通讯作者，Plasmonic properties of   spheroidal spindle and disc shaped core-shell nanostructures embedded in   passive host-matrices，OPTICAL AND QUANTUM ELECTRONICS，2020；

[41] 张勤芳，通讯作者，Synthesis of li-doping   tetragonal-Bi₂O₃ nanomaterial with high efficient   visible light photocatalysis，JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS，2020；

[40] 张勤芳，通讯作者，Optimization of   sintering temperature for SOFCs by a co-firing method,CERAMICS   INTERNATIONAL, 2020;

[39] 张勤芳，通讯作者，The role of the Cu   dopant on a Mn₃O₄ spinel SCR catalyst: Improvement of   low-temperature activity and sulfur resistance,CHEMICAL ENGINEERING   JOURNAL, 2020；

[38] 张勤芳，通讯作者，Interaction of hydrated   metals with chemically modified hexagonal boron nitride quantum dots:   wastewater treatment and water splitting,Physical Chemistry Chemical   Physics, 2020;

[37] 张勤芳，通讯作者，Biotemplating synthesis   of N-doped two-dimensional CeO2-TiO2 nanosheets with enhanced visible light   photocatalytic desulfurization performance，JOURNAL OF ALLOYS AND COMPOUNDS，2020;

[36] 张勤芳，通讯作者，Dynamic study of phase   transition in Bi₂O₃ epitaxial film induced by   electrolyte gating,APPLIED PHYSICS LETTERS, 2019;

[35] 张勤芳，通讯作者，Core-shell   heterostructured and visible-light-driven Titanoniobate/TiO₂composite   for boosting photodegradation performance,NANOMATERIALS,2019；

[34] 张勤芳，第一作者，MnB₂   nanosheet and nanotube: stability, electronic structures, novel   functionalization and application for Li-ion batteries，NANOSCALE，2019；

[33] 张勤芳，通讯作者，The Janus structures of   group-III chalcogenide monolayers as promising photocatalysts for water   splitting，APPLIED   SURFACE SCIENCE，2019;

[32] 张勤芳，通讯作者，Three-dimensional   reduced graphene oxide/MnO composite architectures as a high-rate anode for   lithium storage，SYNTHETIC METALS，2019；

[31] 张勤芳，第一作者，VC₂ and   V1/2Mn1/2C2 nanosheets with robust mechanical and thermal properties as   promising materials for Li-ion batteries，PHYSICAL CHEMISTRY CHEMICAL PHYSICS，2019;

[30] 张勤芳，通讯作者，Revealing the role of   oxygen vacancies on the phase transition of VO2 film from the   optical-constant measurements，RSC ADVANCES，2018；

[29] 张勤芳，通讯作者，Two-dimensional stable   transition metal carbides (MnC and NbC) with prediction and novel   functionalizations，PHYSICAL CHEMISTRY CHEMICAL PHYSICS，2018;

[28] 张勤芳，通讯作者，Formation and structural   growth of two dimensional layer of hafnene on Ir (111) surface，CHEMICAL PHYSICS LETTERS，2018；

[27] 张勤芳，通讯作者，Well-dispersed   monoclinic VO₂nanoclusters with uniform size for sensitive   near-infrared detection，ACS APPLIED NANO MATERIALS，2018；

[26] 张勤芳，通讯作者，First-principles studies   on the structural and electronic properties of as clusters，MATERIALS，2018;

[25] 张勤芳，通讯作者，An eco-friendly   synthesized mesoporous-silica particle combined with WSe₂-graphene-TiO₂   by self-assembled method for photocatalytic dye decomposition and hydrogen   production，SCIENTIFIC   REPORTS，2018；

[24] 张勤芳，通讯作者，Efficient carrier separation   and band structure tuning of two-dimensional C₂N/GaTe van der waals   heterostructure,JOURNAL OF PHYSICAL CHEMISTRY C, 2018;

[23] 张勤芳，通讯作者，The behavior of magnetic   properties in the clusters of 4d transition metals，MOLECULES，2018；

[22] 张勤芳，通讯作者，Core-level excitation in   polymorph of AS₂S₃ and In₂S_3,Journal   of computational Science,2018；

[21] 张勤芳，通讯作者，A new bi-based   oxychloride Bi₄Ti_0.5W_0.5O₈Cl as a   photocatalyst，CATALYSIS LETTERS，2018；

[20] 张勤芳，通讯作者，Single-layer ZnMN₂   (M = Si, Ge, Sn) zinc nitrides as promising photocatalysts,PHYSICAL   CHEMISTRY CHEMICAL PHYSICS. 2018;

[19] 张勤芳，通讯作者，Antiferromagnetic   monolayer MnC₂ with density functional theory prediction，JOURNAL OF   PHYSICS-CONDENSED MATTER，2018；

[18] 张勤芳，通讯作者，Theoretical   investigation of existence of meta-stability in iron and cobalt clusters，SOLID STATE   COMMUNICATIONS，2018；

[17] 张勤芳，通讯作者，First-principles study   of native defects in bulk Sm₂CuO₄ and its (001) surface   structure，JOURNAL   OF APPLIED PHYSICS，2018；

[16] 张勤芳，通讯作者，Electronic structures   and magnetic properties of rare-earth (Sm,Gd) doped Bi₂Se₃，Chalcogenide Letters，2017；

[15] 张勤芳，通讯作者，Tuning the electrical   transport of type II Weyl semimetal WTe₂ nanodevices by Ga plus   ion implantation，SCIENTIFIC REPORTS，2017；

[14] 张勤芳，通讯作者，GaS_0.5Te_0.5   monolayer as an efficient water splitting photocatalyst,PHYSICAL   CHEMISTRY CHEMICAL PHYSICS，2017;

[13] 张勤芳，通讯作者，Metal–organic framework   photosensitized TiO₂ Co-catalyst: a facile strategy to achieve a   high efficiency photocatalytic system，Chemistry - A European Journal，2017;

[12] 张勤芳，第一作者，Surface ferromagnetism   in HfO₂ induced by excess oxygen,SOLID STATE COMMUNICATIONS,2017；

[11] 张勤芳，通讯作者，First-principles study   on codoping effect to enhance photocatalytic activity of anatase TiO_2,INTERNATIONAL   JOURNAL OF MODERN PHYSICS B,2017；

[10] 张勤芳，通讯作者，Layer-by-layer assembly   modification to prepare firmly bonded Si-graphene composites for high-performance   anodes，RSC ADVANCES，2016；

[9] 张勤芳，通讯作者，High-mobility Sm-doped   Bi₂Se₃ferromagnetic topological insulators and robust   exchange coupling，ADVANCED MATERIALS，2015；

[8] 张勤芳，通讯作者，Pressure-induced spin   reorientation and spin state transition in SrCoO₃，Physical Review B，2015;

[7] 张勤芳，通讯作者，First-principles study   of transition-metal atoms adsorption on MoS₂ monolayer，PHYSICA   E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES，2014;

[6] 张勤芳，通讯作者，Study on structural   characteristics and adsorption performance of ultrasonic treated   Mn-containing sulfur transfer agent，JOURNAL OF ENERGY CHEMISTRY，2014;

[5] 张勤芳，通讯作者，Tunable electronic   properties of ZnO nanowires and nanotubes under a transverse electric field，JOURNAL OF APPLIED PHYSICS，2013；

[4] 张勤芳，通讯作者，A simple capacitor model   and first-principles study of carbon-doped zigzag ZnO nanoribbons，SOLID STATE   COMMUNICATIONS，2012；

[3] 张勤芳，第一作者，Strain-engineered   magnetic order in (LaMnO₃)(n)/(SrMnO₃)(2n)   superlattices，PHYSICAL REVIEW B，2012;

[2] 张勤芳，通讯作者，Tunable deformation and electronic properties of single-walled ZnO nanotubes under a transverse   electric field，JOURNAL OF APPLIED PHYSICS，2012；

[1] 张勤芳，第一作者，First-principles study of the spin-mixing conductance in Pt/Ni81Fe19 junctions，APPLIED PHYSICS LETTERS，2011；

发明专利：

[15] 张勤芳，第五发明人，一种用于电催化析氢析氧的高熵合金纳米颗粒电催化剂的制备方法，中国，发明专利，2024.09.20，CN118581496A（实质审查）；

[14] 张勤芳，第二发明人，一种稀土离子掺杂三氟化铈-石墨相氮化碳复合光催化材料及其制备方法与应用，中国，发明专利，2023.09.29，ZL111715265B（授权）；

[13] 张勤芳，第一发明人，铋基氧卤化物光催化材料及其制备方法与应用，中国，发明专利，2023.08.01，ZL115672360B（授权）；

[12] 张勤芳，第一发明人，一种铋钛铁氧氯化物光催化材料的制备方法及应用，中国，发明专利，2023-07-25，ZL111468148B（授权）；

[11] 张勤芳，第一发明人，一种交互式水泥生产仿真方法，中国，发明专利，2021-01-15，ZL202010254672.0（授权）；

[10]张勤芳，第一发明人，一种团簇束流实验装置及纳米团簇的制备方法，中国，发明专利，2020-01-10，ZL 201611154289.8（授权）；

[9]张勤芳，第一发明人，一种超高真空催化装置以及团簇沉积的设备,中国，发明专利，2019-03-15，ZL201611155536.6（授权）；

[8]张勤芳，第一发明人，水泥生产中的烟气脱硝仿真系统[简称：水泥烟气脱硝仿真]V1.0，中国，软件著作权，2020-01-01，2019SR0923324（授权）；

[7]张勤芳，第一发明人，水泥窑预分解工艺优化与节能虚拟仿真实验软件[简称：预分解优化节能仿真]V1.0，中国，软件著作权，2020-08-20，2020SR0964470（授权）；

[6]张勤芳，第四发明人，Low-calcium silicate cement and preparation and hardening methods，美国，发明专利，2018-10-31，US10058874B2（授权）；

[5]张勤芳，排名第4，一种过渡金属掺杂二硫化钼钠电池负极材料的制备方法及其所得材料和应用，中国，发明专利，2020-12-11，ZL201711248721.4（授权）；

[4]张勤芳，排名第2，一种光催化材料Li6WO6纳米粉体、其制备方法及应用，中国，发明专利，2019-08-23，ZL201710512431.X（授权）；

[3]张勤芳，排名第4，一种黑色氧化锌及其制备方法，中国，发明专利，2018-01-23，ZL 2015 1 0377150.9（授权）；

[2]张勤芳，排名第4，一种低钙硅酸盐水泥及其制备与硬化方法，中国，发明专利，2017-07-28，ZL 2015 1 0452735.2（授权）；

[1]张勤芳，排名第2，WO₃团簇束流沉积系统及利用其制备WO₃薄膜的方法，中国，发明专利，2016-09-21，ZL103789738B（授权）；

教学成果：

8. 张勤芳，江苏省教育厅，基于“工程+”的材料与化工专业学位研究生培养模式研究（JGLX19_166），2019-2020，1万元，排名第1；

7. 张勤芳，江苏省教育厅，材料类专业产教融合协同育人机制研究（2019JSJG626），2019-2021，0.3万元，排名第1；

6. 张勤芳，教育部，生态建材示范虚拟仿真教学实验项目设计（201902044025），2020-2021，0.5万元，排名第1；

5. 张勤芳，江苏省教育厅，面向新工科工程硕士专业学位研究生培养模式研究（D/2020/01/44），2020-2021，0.2万元，排名第1；

4. 张勤芳，盐城工学院，“新工科光驰创新实验班”人才培养研究与实践，2019-2021，0.8万元，排名第1；

3. 张勤芳，盐城工学院，面向建材，学练融合，铸造材料卓越工程师，2018-2020，1万元，排名第1；

2. 盐城市科技局，第六届盐城市科技创业大赛总决赛“高校师生组”，秸秆类FDM 3D打印耗材，一等奖，2019.12；

1. 国家级大学生创新创业训练计划项目，VO₂纳米团簇的可控制备及红外光电响应研究，省级重点，2018.7。

著作/教材：

3. 张勤芳，《光催化复合材料》，南京大学出版社，2018.08；

2. 张勤芳，《安全生产与环境保护》，机械工业出版社，2020，校级省重点教材；

1. 张勤芳，《安全生产与环境保护》，机械工业出版社，2020.12，江苏省重点教材。

会议报告：

22. The 8th International conference on multi-functional materials and applications 2014 (Hoseo University, Chungnam, Korea), oral presentation.

21. 26th International Conference on Low Temperature Physics 2011 (Beijing, China), poster presentation.

20. JPS Annual Meeting, 2010 (Osaka, Japan), poster presentation.

19. APS March Meeting, March 2010 (Portland, USA), oral presentation.

18. Crest Meeting, December 2009 (Wako, Japan), oral presentation.

17. Crest Meeting, September 2009 (Sendai, Japan), oral presentation.

16. Crest Meeting, July 2009 (Sendai, Japan), oral presentation.

15. DynaMax Meeting, Apirl 2009 (Trondheim, Norway), oral presentation.

14. Workshop on Spin Caloritronics, February 2009 (Leiden, the Netherlands).

13. The FOM Meeting, January 2009, (Veldhoven, the Netherlands)，poster presentation.

12. MESA＋Annual Meeting, 23 November 2008 (Enschede, the Netherlands), poster presentation.

11. 5th NN-NEM meeting, September 2008, (Eindhoven, the Netherlands).

10. DynaMax Meeting, September 2007, (Leuven, Belgium).

9. DynaMax Meeting, March 2007 (Groningen, the Netherlands), oral presentation.

8. The FOM Meeting, January 2007, (Veldhoven, the Netherlands).

7. Quantum Transport and non-adiabatic electron evolution from first principles approaches,December 2006, (Lyon, France).

6. DynaMax Meeting, September 2006, (Delft, the Netherlands).

5. Electronic Structure Workshop, May 2006, (Nijmegen, the Netherlands).

4. MESA＋ Annual Meeting, September 2006, (Enschede, the Netherlands).

3. Novel Nanomaterials, Quantum Transport, and Noise of Electrons and Photons, January 2006, (Lancaster University, UK).

2. The FOM Meeting, December 2005, (Veldhoven, the Netherlands).

1. MESA＋ Annual Meeting, September 2005, (Enschede, the Netherlands).