个人简介
2010年毕业于同济大学材料学院,获工学博士学位,之后赴日本秋田大学工学资源部从事博后及助理教授一职。2011年11月,入职上海理工大学。主要从事新型磁性材料研发及应用探索、生物医用纳米材料及器件的开发应用方面的研究,研究领域聚焦在涡旋磁纳米材料、递送化疗靶向药物载体及生物医疗器械的研发。以第一或通讯作者在Advanced Science、Nano letters、Chemical Engineering Journal、Carbon、Applied Physics Letters、Journal of Alloys and Compounds等高影响力SCI期刊上发表论文50余篇。主持国家自然科学基金青年项目、面上项目、上海市自然科学基金面上项目及相关横向项目等10余项,获得中国专利授权10余项。
兼任上海市有色金属学会理事、上海机械工程学会粉末冶金管委会委员、全国材料与器件科学家智库-专家委员会委员。担任SCI期刊《Metals》客座编辑、EI期刊“International Journal of Corrosion”编委、《当代化工研究》期刊编委、《Carbon》、《Journal of Materials Science & Technology》、《Journal of Materials Science》、《IEEE Transactions on Magnetics》等SCI期刊审稿人、国家自然科学基金委通讯评审专家。作为负责人,获得2022年广慈-思南产医融合国际创新大赛创新创意三等奖。
研究领域
(1)新型磁性材料及功能合金的开发及应用探索
(2)生物医用纳米材料及其应用
(3)电磁吸波材料及其应用
近期论文
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(1) Sea-urchin-like NiCo2S4 modified MXene hybrids with enhanced microwave absorption performance, Chemical Engineering Journal, 454: 140127, 2023.
(2) Propagation of Spin Waves in a 2D Vortex Network, Nano Letters, 21(11): 4708-4714, 2021.
(3) Construction of 1D Vortex Chain Using a Chiral Nanostructure, Advanced Science, 2001040: 1-8, 2020.
(4) Biconical Prisms Ni@C Composites Derived from Metal-organic Frameworks with an Enhanced Electromagnetic Wave Absorption, Carbon, 184: 115-126, 2021.
(5) Improved synergistic effect for achieving ultrathin microwave absorber of 1D Co nanochains/2D carbide MXene nanocomposite, Carbon 172: 506-515, 2021.
(6) Enhanced electromagnetic wave absorption of layered FeCo@carbon nanocomposites with a low filler loading, Journal of Alloys and Compounds, 879: 160465, 2021.
(7) Fe@NPC@CF nanocomposites derived from Fe-MOFs/biomass cotton for lightweight and high-performance electromagnetic wave absorption applications, Journal of Alloys and Compounds, 819: 152952, 2020.
(8) Enhanced electromagnetic wave absorption of olive-like Fe3O4/Fe@C core-shell nanocomposite in Ku band, Journal of Alloys and Compounds, 821: 153275, 2020.
(9) Pinning-dependent vortex wall oscillations in a one dimensional NiFe nanowire, Applied Physics Letters, 111, 162403, 2017.
(10) Dynamic nanomagnetism characterization of individual magnetic nanoparticles by frequency-modulated magnetic force microscopy, Applied Physics Letters, 104, 213106, 2014.