黄艺吟(1984-),福建泉州人,应用化学博士,副教授,硕士生导师。2014年中科院海西研究院公派赴香港科技大学从事博士后研究(合作导师:赵天寿院士),获得海西研究院“春苗”青年人才资助。主持国家基金青年项目和福建省青年基金项目,参与多项国家及中科院研究项目。近年来一直从事无机材料的可控合成及其在电化学能源转换中的应用。在金属空气电池、燃料电池、电解合成氢/氨/燃料等新型电化学器件,及其电极材料的研究开发上取得了一系列研究成果和重要进展,累计发表SCI论文50余篇,第一或通讯作者论文包括国际知名期刊Adv. Mater. (IF=25.8)、Nano Today (IF=16.6)、Adv. Sci. (IF=15.8)、J. Mater. Chem A (IF=10.7,3篇) 、ACS Energy Lett. (IF=16.3)、Adv. Funct. Mater.(IF=15.6)和Appl. Catal. B-Environ.(IF=14.2)等。这些研究成果被国际顶级Energy Environ. Sci., Angew. Chem. Int. Ed, Nano Lett.和Adv. Mater.等引用超过1000次,总h因子21。此外,申请多项国家发明专利。
研究领域:
1.新型电化学能源转换器件设计;
2.新型电催化材料的设计,合成及其在能源转换领域的应用;
代表论文:
1.Peng, Z.#; Huang, Y.#; Wang, J.; Yang, R.; Xie, J.; Wang, Y.*, Metal‐modulated nitrogen‐doped carbon electrocatalyst for efficient carbon dioxide reduction. ChemElectroChem 2020, 7 (5), 1142-1148.
2.Mohamed, A. G. A.#; Huang, Y.#; Xie, J.; Borse, R. A.; Parameswaram, G.; Wang, Y.*, Metal-free sites with multidimensional structure modifications for selective electrochemical CO2 reduction. Nano Today 2020, 33, 100891.
3.Huang, Y.#; Babu, D. D.#; Peng, Z.; Wang, Y.*, Atomic modulation, structural design, and systematic optimization for efficient electrochemical nitrogen reduction. Advanced Science 2020, 7 (4), 1902390.
4.Huang, Y.#; Wang, Y.#; Tang, C.#; Wang, J.; Zhang, Q.*; Wang, Y.*; Zhang, J.*, Atomic modulation and structure design of carbons for bifunctional electrocatalysis in metal-air batteries. Advanced Materials 2019, 31 (13), 1803800.
5.Babu, D. D.#; Huang, Y.#; Anandhababu, G.; Wang, X.; Si, R.; Wu, M.; Li, Q.*; Wang, Y.*; Yao, J., Atomic iridium@cobalt nanosheets for dinuclear tandem water oxidation. Journal of Materials Chemistry A 2019, 7 (14), 8376-8383.
6.Huang, Y.; Yang, R.; Anandhababu, G.; Xie, J.; Lv, J.; Zhao, X.; Wang, X.; Wu, M.; Li, Q.*; Wang, Y.*, Cobalt/iron(oxides) heterostructures for efficient oxygen evolution and benzyl alcohol oxidation reactions. ACS Energy Letters 2018, 3 (8), 1854-1860.
7.Huang, Y.; Babu, D. D.; Wu, M.; Wang, Y.*, Synergistic supports beyond carbon black for polymer electrolyte fuel cell anodes. ChemCatChem 2018, 10 (20), 4497-4508.
8.Anandhababu, G.#; Huang, Y.#; Babu, D. D.; Wu, M.; Wang, Y.*, Oriented growth of ZIF-67 to derive 2D porous CoPO nanosheets for electrochemical-/photovoltage-driven overall water splitting. Advanced Functional Materials 2018, 28 (9), 1706120.
9.Huang, Y.; Liu, Q.; Lv, J.; Babu, D. D.; Wang, W.; Wu, M.; Yuan, D.; Wang, Y.*, Co-intercalation of multiple active units into graphene by pyrolysis of hydrogen-bonded precursors for zinc–air batteries and water splitting. Journal of Materials Chemistry A 2017, 5 (39), 20882-20891.
10.Babu, D. D.#; Huang, Y.#; Anandhababu, G.; Ghausi, M. A.; Wang, Y.*, Mixed-metal-organic framework self-template synthesis of porous hybrid oxyphosphides for efficient oxygen evolution reaction. ACS Appl Mater Interfaces 2017, 9 (44), 38621-38628.
11.Huang, Y. Y.; Zhao, T. S.*; Zhao, G.; Yan, X. H.; Xu, K., Manganese-tuned chemical etching of a platinum–copper nanocatalyst with platinum-rich surfaces. Journal of Power Sources 2016, 304, 74-80.
12.Huang, Y.; Zhao, T.*; Zeng, L.; Tan, P.; Xu, J., A facile approach for preparation of highly dispersed platinum-copper/carbon nanocatalyst toward formic acid electro-oxidation. Electrochimica Acta 2016, 190, 956-963.
13.Huang, Y.; Wu, P.; Wang, Y.*; Wang, W.; Yuan, D.; Yao, J., Ideal N-doped carbon nanoarchitectures evolved from fibrils for highly efficient oxygen reduction. Journal of Materials Chemistry A 2014, 2 (46), 19765-19770.
14.Huang, Y.; Guo, Y.; Wang, Y.*; Yao, J., Synthesis and performance of a novel PdCuPb/C nanocatalyst for ethanol electrooxidation in alkaline medium. International Journal of Hydrogen Energy 2014, 39 (9), 4274-4281.
15.Huang, Y.; Guo, Y.; Wang, Y.*, Ethylene glycol electrooxidation on core–shell PdCuBi nanoparticles fabricated via substitution and self-adsorption processes. Journal of Power Sources 2014, 249, 9-12.
16.Huang, Y.; Fu, F.; Wu, P.; Wang, Y.*; Yao, J., A bioinspired approach to protectively decorate platinum–carbon for enhanced activity and durability in oxygen reduction. Journal of Power Sources 2014, 268, 591-595.
17.Huang, Y.; Cai, J.; Guo, Y.*, Facile synthesis of a Bi-modified PtRu catalyst for methanol and ethanol electro-oxidation in alkaline medium. International Journal of Hydrogen Energy 2013, 38 (8), 3250-3256.
18.Huang, Y.; Cai, J.; Guo, Y.*, A high-efficiency microwave approach to synthesis of Bi-modified Pt nanoparticle catalysts for ethanol electro-oxidation in alkaline medium. Applied Catalysis B: Environmental 2013, 129, 549-555.
19.Huang, Y.; Zheng, S.; Lin, X.; Su, L.; Guo, Y.*, Microwave synthesis and electrochemical performance of a PtPb alloy catalyst for methanol and formic acid oxidation. Electrochimica Acta 2012, 63, 346-353.
20.Huang, Y.; Cai, J.; Zheng, S.; Guo, Y.*, Fabrication of a high-performance Pb–PtCu/CNT catalyst for methanol electro-oxidation. Journal of Power Sources 2012, 210, 81-85.
21.Huang, Y.; Cai, J.; Liu, M.; Guo, Y.*, Fabrication of a novel PtPbBi/C catalyst for ethanol electro-oxidation in alkaline medium. Electrochimica Acta 2012, 83, 1-6.
22.Huang, Y.; Cai, J.; Guo, Y.*, Roles of Pb and MnOx in PtPb/MnOx -CNTs catalyst for methanol electro-oxidation. International Journal of Hydrogen Energy 2012, 37 (2), 1263-1271.
电子邮箱:hyy@fjnu.edu.cn