余灵辉,教授,硕士生导师
研究方向:电化学储能与催化
E-mail: lhyu@wtu.edu.cn
湖北省“百人计划”(创新人才),2013年于德国马普胶体界面所/波茨坦大学取得博士学位,先后于新加坡南洋理工大学、美国亚利桑那州立大学、新加坡南洋理工大学从事博士后研究;2021年以海外高层次人才引进武汉纺织大学化学与化工学院,任特聘教授。
主要从事新能源材料与器件研究,包括二次电池研究,例如锂离子电池、锂金属电池和钠离子电池,以及电催化研究,例如电催化制氢、制氧和氧还原。在Adv. Energy Mater.、Nano Energy、Small、Chem. Mater等期刊上发表SCI论文近40篇,h因子24,Web of Science被引3000多次(ResearcherID M-9159-2015),授权中国专利两项,申请PCT国际专利一项。
代表性论文:
[1] Yu L., Wang J., and Xu Z.J., A perspective on the behavior of lithium anodes under a magnetic field. Small Structures, 2021. 2(1), 2000043.
[2] Yu L., Sun S., Li H., and Xu Z.J., Effects of catalyst mass loading on electrocatalytic activity: An example of oxygen evolution reaction. Fundamental Research, 2021. 1(4), 448-452.
[3] Yu L., Ong S.J.H., Liu X., Mandler D., and Xu Z.J., The importance of the dissolution of polysulfides in lithium-sulfur batteries and a perspective on high-energy electrolyte/cathode design. Electrochimica Acta, 2021. 392, 139013.
[4] Yu L., Song J., Wang L.P., Ong S.J.H., Gu C., et al., An investigation on the relationship between the stability of lithium anode and lithium nitrate in electrolyte. Journal of The Electrochemical Society, 2019. 166(15), A3570-A3574.
[5] Yu L., Wang L.P., Liao H., Wang J., Feng Z., et al., Understanding fundamentals and reaction mechanisms of electrode materials for Na‐ion batteries. Small, 2018. 14(16), 1703338.
[6] Yu L., Xi S., Wei C., Zhang W., Du Y., et al., Superior lithium storage properties of β-FeOOH. Advanced Energy Materials, 2015. 5(6), 1401517.
[7] Yu L., Wei C., Yan Q., and Xu Z.J., Controlled synthesis of high-performance β-FeOOH anodes for lithium-ion batteries and their size effects. Nano Energy, 2015. 13, 397-404.
[8] Yu L., Wang L.P., Xi S., Yang P., Du Y., et al., β-FeOOH: An earth-abundant high-capacity negative electrode material for sodium-ion batteries. Chemistry of Materials, 2015. 27(15), 5340-5348.
[9] Yu L., Brun N., Sakaushi K., Jürgen E., and Titirici M.-M., Hydrothermal nanocasting: Synthesis of hierarchically porous carbon monoliths and their application in lithium-sulfur batteries. Carbon, 2013. 61, 245-253.
[10] Yu L., Falco C., Weber J., White R.J., Howe J.Y., et al., Carbohydrate-derived hydrothermal carbons: A thorough characterization study. Langmuir, 2012. 28(33), 12373-12383.
