2015年9月-2020年8月 哈尔滨理工大学 化学与环境工程学院    讲师

2020年9月至今     哈尔滨理工大学 材料科学与化学工程学院 副教授

主要从事多金属氧簇基催化剂的设计制备及其电催化分解水产氢、电催化固氮、电催化硝氮还原及光催化水分解性能研究，研究过程中提出了新的思路和方法，取得了系列创新性成果。

主持项目：

(1) 国家自然科学基金委员会, 青年科学基金项目, 21701037, POMOFs模板法制备金属纳米颗粒复合石墨烯材料及催化电解水产氢性能研究。

(2) 山东省自然科学基金面上项目，ZR2022MB096，多金属氧簇基双活性中心固氮电催化剂的分级调控与增效机制。

(3) 黑龙江省科技厅, 黑龙江省自然科学基金优秀青年项目, YQ2020B005, 多酸基MOFs/氮化碳异质结材料的制备及光催化分解水产氢研究。

(4) 黑龙江省教育厅, 厅级, 黑龙江省普通本科高等学校青年创新人才培养计划，UNPYSCT-2018213, 杂原子掺杂金属纳米颗粒复合材料的制备及电解水产氢活性研究。

(5) 中国博士后科学基金会, 中国博士后科学基金面上项目, 2017M611380, 多酸基金属有机纳米晶材料的构筑及催化电解水制氢研究。

(6) 黑龙江省博士后科研启动项目，多酸基杂化材料的制备及其电催化析氢、电催化固氮性能研究。

主要参与项目：

（1） 国家自然科学基金委员会, 重大研究计划, 92061102, 基于钼（钒）多金属氧簇电催化剂的设计制备及其固氮性能研究, 第一参与人。

（2） 国家自然科学基金委员会, 青年科学基金项目, 51702071, 改性三维网状石墨烯水凝胶的可控制备及铀吸附性能研究，第一参与人。

（3） 国家自然科学基金委员会, 面上项目, 21671049, 囊包多酸的金属-有机纳米笼的设计合成及催化电解水产氢研究, 第一参与人。

一、导师简介

1. 姓名：王新铭

2. 职称/职位：副教授/硕、博士生导师

3. 所属院校/研究机构：哈尔滨理工大学 材料科学与化学工程学院

4. 主要研究方向：多酸团簇及微纳米材料的制备及其能源存储和转换应用

二、招生要求

1. 专业要求：化学、化工及材料类相关专业

2. 其他要求：英语四级及以上，乐于沟通交流

三、研究团队介绍

        团队成员均具有博士学位，其中高级职称4人，博导3人，在催化剂设计制备及能源转化领域有多年的研究经历，承担国  家级项目6项，国自然重大计划1项，省级项目12项，厅局级/企业委托项目5项。团队已取得了系列创新性成果，如首次构建了双金属团簇纳米复合材料的高效合成氨电催化剂，建立了溶解/重组策略构筑具有优异超电性能的三明治结构，提出了大幅度提升产氢活性的准胶囊型多酸簇基三维材料调控方法等。相关成果已在本领域前言期刊发表高水平论文125篇，其中5篇为ESI高被引论文，2篇为ESI热点论文，授权发明专利40项，其中部分开展转化，为相关行业提供技术支撑。

四、联系方式

(1) 王新铭; 赵原青; 冯泽民; 马慧媛; 庞海军; 谭立超; 一种Keggin型钴钨酸基钴配位聚合物及其合成方法与应用, 2021-5-18, 中国, ZL201910678027.9 

(2) 王新铭; 赵原青; 马慧媛; 庞海军; 一种对称船锚形三维钴钨多酸盐晶态催化材料及制备方法, 2022-2-25, 中国, ZL201910488893.1

(3)王新铭；赵原青；马慧媛；庞海军；冯泽民，一种三维多酸基镍金属-有机晶态催化材料及其制备方法，2022-8-26，中国，ZL 201910337638.7

(4)王新铭，赵原青，马慧媛，庞海军，谭立超，一种三维非贯穿磷钼酸基铜晶态催化材料及其制备方法。ZL 201910626729.2

(5)王新铭;李汉奇;马慧媛;庞海军，一种铋钨酸盐与氮化碳复合光催化材料的制备及应用，ZL 202111418933.9

(6)马慧媛；杨蒙乐；王新铭，一种高效电催化合成氨FeSe2/MoSe2纳米片及其制备方法和应用，ZL 20201 0998372.3

[1] Mengle Yang, Xinming Wang,* Carlos J. Gómez-García, Zhongxin Jin, Jianjiao Xin,  Xixian Cao, Huiyuan Ma,* Haijun Pang, Lichao Tan, Guixin Yang, and Yuhe Kan*, Efficient Electron Transfer from an Electron-Reservoir Polyoxometalate to Dual-Metal-Site Metal-Organic Frameworks for Highly Efficient Electroreduction of Nitrogen, Adv. Funct. Mater. ，2023, 33（28），2214495.（2024年ESI高被引论文）

[2] Xinming Wang, Gang Li, Chenglong Wang, Shuang Rong, Haijun Pang, Huiyuan Ma, Yu Tian, Shaobin Li, Keqing Gao, Cooperative electrocatalytic N2 reduction based on WS2-covered Co9S8 hexagonal heterostructures derived from ZIF-67@POMs, Materials Today Energy 33 (2023) 101278.

[3]Meng‑Le Yang · Zhong‑Xin Jin· Xi‑Xian Cao · Xin‑Ming Wang· Hui‑Yuan Ma,  Hai‑Jun Pang,  ·Gui‑Xin Yang, Polyoxometalates‑derived ternary metal oxides electrocatalyst for N2 reduction under ambient conditions, Tungsten, 2023.

[4] Zemin Feng, Gang Li, Xinming Wang*, Carlos J. G´omez-García, Jianjiao Xin, Huiyuan Ma *, Haijun Pang, Keqing Gao, FeS₂/MoS₂@RGO hybrid materials derived from polyoxomolybdate-based metal–organic frameworks as high-performance electrocatalyst for ammonia synthesis under ambient conditions, Chemical Engineering Journal, 2022, 445, 136797（2023年ESI高被引及热点论文）

[5] Chenglong Wang, Mengle Yang, Xinming Wang*, Huiyuan Ma*, Yu Tian, Haijun Pang, Lichao Tan, Keqing Gao, Hierarchical CoS2/MoS2 flower-like heterostructured arrays derived from polyoxometalates for efficient electrocatalytic nitrogen reduction under ambient conditions, Journal of Colloid and Interface Science,2022, 609, 815–824

[6] Mengle Yang, Zhongxin Jin, Chenglong Wang, Xixian Cao, Xinming Wang*, Huiyuan Ma*, Haijun Pang, Lichao Tan, Guixin Yang, Fe foam-supported FeS2−MoS2 electrocatalyst for N2 reduction under ambient conditions, ACS Applied Materials & Interfaces,2021, 13, 55040−55050.

[7] Xinming Wang^#, Zemin Feng^#, Boxin Xiao, Jingxiang Zhao, Huiyuan Ma*, Yu Tian*, Haijun Pang, Lichao Tan, Polyoxometalate-based metal-organic framework-derived bimetallic hybrid materials for upgraded electrochemical reduction of nitrogen, Green Chem., 2020, 22, 6157-6169.

[8] Di Zhu, Mingyue Chu, Jianjiao Xin, Xinming Wang*, Kevin P. O’Halloran, Huiyuan Ma*, Haijun Pang, Lichao Tan, Guixin Yang, Hierarchical and hollow boron/nitrogen co-doped yolk-shell mesoporous carbon nanospheres attached to reduced graphene oxide with high sensing performance for the simultaneous detection of xanthine and guanosine, Sensors & Actuators: B. Chemical, 2021, 343, 130068.

[9] Di Zhu, Qingfang Zhen, Jianjiao Xin, Huiyuan Ma*, Lichao Tan, Haijun Pang, Xinming Wang*, A free-standing and flexible phosphorus/nitrogen dual-doped three-dimensional reticular porous carbon frameworks encapsulated cobalt phosphide with superior performance for nitrite detection in drinking water and sausage samples, Sensor Actuat. B-Chem., 2020, 321, 128541.

[10] Yuanqing Zhao, Mengle Yang, Shuang Rong, Xinming Wang*, Huiyuan Ma*, Haijun Pang, Lichao Tan, Keqing Gao, Polyoxotungstates-supported Ni^II/Co^II-containing 3D inorganic-organic hybrids as supercapacitor electrodes toward boosting capacitor performance, Journal of Electroanalytical Chemistry, 2021, 882, 115017.

[11] Mengle Yang, Shuang Rong, Xinming Wang*, Huiyuan Ma*, Haijun Pang, Lichao Tan, Yanxia Jiang, Keqing Gao, Preparation and application of Keggin polyoxometalates based 3D coordination polymer materials as supercapacitors and amperometric sensors, ChemNanoMat, 2021, 7, 299-306.

[12] Chenglong Wang, Shuang Rong, Yuanqing Zhao, Xinming Wang*, Huiyuan Ma*, Threedimensional supramolecular crystalline materials based on Keggin-based polyoxometalates and 1,2Bis (4pyridyl) ethylene for supercapacitor electrodes, Transit. Metal Chem., 2021, 46, 335-343.

[13] Xinming Wang, Yuanqing Zhao, Di Zhang, Shuang Rong, Huiyuan Ma*, Dawson-type vanadium-substituted tungstophosphate-modified ITO electrode: preparation, characterization and electrochemical determination of dopamine, International Journal of Electrochemical Science, 2019, 14, 3595-3609.

[14] Xinming Wang, Yuanqing Zhao, Di Zhang, Li Zhang, Zhenyuan Bai, Haijun Pang, Huiyuan Ma*, A nonenzymatic sensor based on {PEI/[P₂W₁₇V-CNTs/PEI-CuO]₁₀/P₂W₁₇V-CNTs} nanocomposite film for the sensitive determination of iodate, Int. J. Electrochem. Sci., 2018, 13, 8454-8470.

[15] Dawei Chu, Xun Zhao, Boxin Xiao, Libanori Alberto, Yihao Zhou, Lichao Tan, Huiyuan Ma, Haijun Pang, Xinming Wang, Yanxia Jiang, Jun Chen, Nickel/cobalt molybdate hollow rods induced by structure and defect engineering as exceptional electrode materials for hybrid supercapacitor, Chem.-Eur. J., 2021, 27, 8337-8343.

[16] Yan Hou, Haijun Pang**, Li Zhang, Bonan Li, Jianjiao Xin, Kunqi Li, Huiyuan Ma*, Xinming Wang, Lichao Tan, Highly dispersive bimetallic sulfides afforded by crystalline polyoxometalate-based coordination polymer precursors for efficient hydrogen evolution reaction, J. Power Sources, 2020, 446, 227319.

[17] Yan Hou, Haijun Pang*, Jianjiao Xin, Huiyuan Ma*, Bonan Li, Xinming Wang, Lichao Tan, Multi-interface-modulated CoS₂@MoS₂ nanoarrays derived by predesigned germanomolybdate polymer showing ultrahighly electrocatalytic activity for hydrogen evolution reaction in wide pH range, Adv. Mater. Interfaces, 2020, 2000780.

[18] Di Zhu, Zhenyuan Bai, Huiyuan Ma*, Lichao Tan, Haijun Pang, Xinming Wang, High performance simultaneous detection of β-nicotinamide adenine dinucleotide and L-tryptophan in human serum based on a novel nanocomposite of ferroferric oxide-functionalized polyoxometalates, Sensor Actuat. B-Chem., 2020, 309, 127787.

[19] Guangning Wang, Tingting Chen, Carlos J. Gómez-García, Feng Zhang, Mingyi Zhang, Huiyuan Ma*, Haijun Pang*, Xinming Wang, Lichao Tan, A high-capacity negative electrode for asymmetric supercapacitors based on a PMo₁₂ coordination polymer with novel water-assisted proton channels, Small, 2020, 2001626.

[20] Zhenyuan Bai, Ning Gao, Hengbin Xu, Xinming Wang, Lichao Tan, Haijun Pang, Huiyuan Ma*, Construction of an ultra-sensitive electrochemical sensor based on polyoxometalates decorated with CNTs and AuCo nanoparticles for the voltammetric simultaneous determination of dopamine and uric acid, Microchim. Acta, 2020, 187, 483.

[21] Dongxuan Guo, Chunlei Zhou, Lichao Tan*, Huiyuan Ma*, Ranran He, Haijun Pang, Xinming Wang, Electrochemical ascorbic acid sensor of composite film based on Keggin-type vanadium-substituted polyoxometalates decorated with graphene and Ru(bpy)₃²⁺, Colloid. Surface. A, 2020, 592, 124550.

[22] Dawei Chu, Fengbo Li, Xiumei Song, Huiyuan Ma*, Lichao Tan*, Haijun Pang, Xinming Wang, Dongxuan Guo, Boxin Xiao, A novel dual-tasking hollow cube NiFe₂O₄-NiCo-LDH@rGO hierarchical material for high performance supercapacitor and glucose sensor, J. Colloid Interf. Sci., 2020, 568, 130-138.

[23] Di Zhu, Huiyuan Ma*, Qingfang Zhen, Jianjiao Xin, Lichao Tan, Chunjing Zhang, Xinming Wang, Boxin Xiao, Hierarchical flower-like zinc oxide nanosheets in-situ growth on threedimensional ferrocene-functionalized graphene framework for sensitive determination of epinephrine and its oxidation derivative, Appl. Surf. Sci., 2020, 526, 146721.

[24] Dawei Chu, Dongxuan Guo, Boxin Xiao, Lichao Tan, Huiyuan Ma, Haijun Pang, Xinming Wang, Yanxia Jiang, 3D hollow flower-like CoWO₄ derived from ZIF-67 grown on Ni-foam for high-performance asymmetrical supercapacitors, Chem.-Asian J., 2020, 15, 1750-1755.

[25] Yan Hou, Dongfeng Chai, Bonan Li, Haijun Pang*, Huiyuan Ma*, Xinming Wang, Lichao Tan, Polyoxometalate-incorporated metallacalixarene@graphene composite electrodes for high-performance supercapacitors, ACS Appl. Mater. Inter., 2019, 11, 20845-20853.

[26] Dongfeng Chai, Carlos J. Gómez-García, Bonan Li, Haijun Pang*, Huiyuan Ma*, Xinming Wang, Lichao Tan, Polyoxometalate-based metal-organic frameworks for boosting electrochemical capacitor performance, Chem. Eng. J., 2019, 373, 587-597.

[27] Dongfeng Chai, Jianjiao Xin, Bonan Li, Haijun Pang*, Huiyuan Ma*, Kunqi Li, Boxin Xiao, Xinming Wang, Lichao Tan, Mo-based crystal POMOFs with a high electrochemical capacitor performance, Dalton T., 2019, 48, 13026-13033.

[28] Yan Hou, Haijun Pang*, Carlos J. Gomez-García, Huiyuan Ma*, Xinming Wang, Lichao Tan, Polyoxometalate metal−organic frameworks: Keggin clusters encapsulated into silver-triazole nanocages and open frameworks with supercapacitor performance, Inorg. Chem., 2019, 58, 16028-16039.

[29] Di Zhu, Wei Zhu, Jianjiao Xin, Lichao Tan, Xinming Wang, Haijun Pang, Huiyuan Ma*, Prussian blue nanocubes with an open framework structure coated with polyoxometalates as a highly sensitive platform for ascorbic acid detection in drinks/human urine, New J. Chem., 2019, 43, 9420-9429.

[30] Lulu Zhang, Xiumei Song, Boxin Xiao, Lichao Tan**, Huiyuan Ma*, Xinming Wang, Bonan Li, Dongxuan Guo, Dawei Chu, Highly graphitized and N, O co-doped porous carbon derived from leaves of viburnum sargenti with outstanding electrochemical performance for effective supercapacitors, Colloid. Surface. A, 2019, 580, 123721.

[31] Dongxuan Guo, Yan Zhang, Weifeng Sun, Dawei Chu, Bonan Li, Lichao Tan*, Huiyuan Ma*, Haijun Pang, Xinming Wang, Lulu Zhang, Facile dual-ligand modulation tactic toward nickel−cobalt sulfides/phosphides/selenides as supercapacitor electrodes with long-term durability and electrochemical activity, ACS Appl. Mater. Inter., 2019, 11, 41580-41587.

[32] Lulu Zhang, Xiumei Song, Lichao Tan, Huiyuan Ma, Dongxuan Guo, Haijun Pang, Xinming Wang, Fabrication of double-shell hollow NiO@N-C nanotubes for a high-performance supercapacitor, New J. Chem., 2019, 43, 13457-13462.

[33] Dongfeng Chai, Yan Hou, Kevin P. O’Halloran, Haijun Pang*, Huiyuan Ma*, Guangning Wang, Xinming Wang, Enhancing energy storage via TEA-dependent controlled syntheses: two series of polyoxometalate-based inorganic-organic hybrids and their supercapacitor properties, ChemElectroChem, 2018, 5, 3443-3450.

[34] Li Zhang, Shaobin Li, Jianjiao Xin, Huiyuan Ma*, Haijun Pang, Lichao Tan, Xinming Wang, A non-enzymatic voltammetric xanthine sensor based on the use of platinum nanoparticles loaded with a metal-organic framework of type MIL-101(Cr). Application to simultaneous detection of dopamine, uric acid, xanthine and hypoxanthine, Microchim. Acta, 2018, 186, 9.