2011年毕业于东北大学，材料物理与化学工学博士

2016-2017年，美国加州大学戴维斯分校(UCD)和加州大学伯克利分校(UCB)、劳伦斯伯克利国家实验室(LBNL)访问学者

基金项目 8. 辽宁省自然科学基金计划重点项目“NiMn基Heusler合金自发交换偏置性能与机制研究”，2018/09-2020/08 7.国家自然科学基金面上项目“三维弯曲手性磁体中的拓扑态及其动力学行为研究”，2018/01-2021/12 6.国家留学基金委面上项目，2016/09-2017/09 5.教育部中央高校基本科研业务费青年教师科研创新基金项目国家项目培育种子基金“自旋玻璃/铁磁体系交换偏置锻炼效应微观机制研究”，2016/01-2017/12 4.辽宁省教育厅科学技术研究一般ᠦ୔

科研论文 2019 1. Yong Hu,Tianyi Hu, Xiaodan Chi, Yuying Wang, Qiang Lu, Le Yu, Ruijun Li, Yan Liu, An Du, Zongbin Li, Feng Shi. Magnetocaloric effect in cubically anisotropic magnets, Applied Physics Letters 114, 023903 (2019). 2. Yong Hu. Prediction of reentering and switching ferromagnet/antiferromagnet exchange bias by antiferromagnetic proximity effect, Nanotechnology 30, 025708 (2019). 3. Xiaodan Chi, Ruijun Li, Le Yu, Huaihao Kou, An Du, Yan Liu, Yong Hu. Spin glass properties mapped by coercivity in ferromagnet/spin glass bilayers, Nanotechnology 30, 125702 (2019). 4. Ruijun Li, Le Yu, Yong Hu. Spin-glass irreversibility temperature and magnetic stabilization in ferromagnet/spin-glass bilayers, Physica Status Solidi RRL 2019, 1900039 (2019). 2018 1.Yong Hu, Xuesi Li, Xiaodan Chi, An Du, Feng Shi. Role of ferromagnetic spin structure in magnetization reversal and exchange bias phenomena, Journal of Physics D: Applied Physics 51, 055001 (2018).（与美国加州大学（UCD）合作论文） 2. Xiaodan Chi,Yong Hu. Modulation of skyrmion diameter in centrosymmetric frustrated magnet, ActaPhysicaSinica 67, 137502 (2018).（物理学报约稿论文） 3. Lujun Wei, Zhenzhong Hu, Guanxiang Du, Yuan Yuan, Ji Wang, HongqingTu, Biao You, Shiming Zhou, JiangtaoQu, Hongwei Liu, RongkunZheng,Yong Hu, and Jun Du. Full electric control of exchange bias at room temperature by resistive switching, Advanced Materials 30, 1801885 (2018).（与南京大学、南京邮电大学、同济大学、澳大利亚悉尼大学合作论文，南京大学新闻报道论文，新闻链接：http://news.nju.edu.cn/show_article_12_49985） 4. BaoruBian, Guoxin Chen, QiangZheng, Juan Du, Huanming Lu, J. Ping Liu,Yong Hu, Zhidong Zhang. Self-assembly of CoPt magnetic nanoparticle arrays and its underlying forces, Small 14, 1801184 (2018).（与中科院宁波材料所、金属所、美国德州大学阿灵顿分校合作论文） 5.Yong Hu,Yuying Wang, Zongbin Li, Xiaodan Chi, Qiang Lu, Tianyi Hu, Yan Liu, An Du, Feng Shi. Low-field magnetocaloric effect in single crystals controlled by magnetocrystalline anisotropy, Applied Physics Letters 113, 133902 (2018). 2017 1.Yong Hu, Xiaodan Chi, Xuesi Li, Yan Liu, An Du. Creation and annihilation of skyrmions in the frustrated magnets with competing exchange interactions, Scientific Reports 7, 16079 (2017).（与美国加州大学（UCD）合作论文） 2.Yong Hu,Yuying Wang, Xiaodan Chi, Xuesi Li, An Du, Feng Shi. Exchange bias mechanism at the ferromagnetic/antiferromagnetic interface with rotatable antiferromagnetic spins: A Monte Carlo study, Journal of Applied Physics 122, 083902 (2017).（与美国加州大学（UCD）合作论文） 2016 1. Xiaodan Chi, WenbinRui, Jun Du, Shiming Zhou, An Du,Yong Hu. Exchange bias training relaxation in spin glass/ferromagnet bilayers, Applied Physics Letters 108, 172401 (2016).（与南京大学、同济大学合作论文） 2. AnLuo, Fenghua Ma,Yong Hu. Exchange bias and magnetization reversal in ferromagnet/antiferromagnet antidot arrays, Journal of Magnetism and Magnetic Materials 413, 108-114 (2016). 2015 1. Xiaodan Chi, FenghuaMa, AnLuo, An Du, Jinren Wang,Yong Hu. Role of antiferromagnetic bulk exchange coupling on exchange-bias propagation, Physics Letters A 379, 2772-2776 (2015). 2. W. B. Rui,Y. Hu, A. Du, B. You, M. W. Xiao, W. Zhang, S. M. Zhou, J. Du. Cooling field and temperature dependent exchange bias in spin glass/ferromagnet bilayers, Scientific Reports 5, 13640 (2015).（与南京大学、同济大学合作论文） 3.Yong Hu, An Du. Monte-Carlo modeling of exchange bias properties in amorphous magnets, Journal of Magnetism and Magnetic Materials 393, 498 (2015). 4.Yong Hu, Xiaoling Wang, NingJia, Yan Liu, An Du. Effect of misaligned unidirectional and uniaxial anisotropies on angular dependence of exchange bias, Journal of Magnetism and Magnetic Materials 374, 388-393 (2015). 2014 1.Yong Hu, Yan Liu, Hai-Na Wu, An Du, Feng Shi. Size-dependent exchange bias in ferromagnetic (core)/antiferromagnetic (shell) nanoparticles, Physica B 449, 214-219 (2014). 2.Yong Hu, Yan Liu, An Du, Feng Shi. Dependence of exchange bias on core/shell relation dimension in ferromagnetic/antiferromagnetic nanoparticles, Physics Letters A 378, 1667-1674 (2014). 3.Yong Hu, Feng Shi, Xiaoling Wang, NingJia, Guozhen Wu, Yan Liu, An Du. Monte Carlo simulation of exchange bias and training effects in ferromagnetic/antiferromagnetic bilayers with different Néel temperatures, Thin Solid Films 550, 608-615 (2014). 4.Yong Hu, Feng Shi, NingJia, Yan Liu, An Du. Quantitatively microscopic interpretations on magnetization-plateau phenomena in stacked triangular Isingantiferromagnets, Solid State Communications 182, 5-9 (2014). 2013 1.Yong Hu, Feng Shi, NingJia, Yan Liu, Haina Wu, and An Du. Exchange bias and its propagation in ferromagnetic/antiferromagnetic/ferromagnetic trilayers, Journal of Applied Physics 114, 153901 (2013). 2.Yong Hu, NingJia, Guozhen Wu, Yan Liu, An Du, and Haina Wu. Angular dependencies of exchange bias and coercivity in the ferromagnetic/antiferromagnetic bilayers not subjected to field-cooling treatments, Solid State Communications 168, 56-59 (2013). 3.Yong Hu, Feng Shi, Guo-Zhen Wu, NingJia, Yan Liu, and An Du. Origin of the angular dependent magnetization reversal processes in exchange-biased bilayers, Journal of the Physical Society of Japan 82, 064602 (2013). 4.Yong Hu, Guozhen Wu, Yan Liu, Xiaolong Yang, and An Du. Defect dependent multiple magnetization plateaus in frustrated spin-chain cobaltate, Journal of Magnetism and Magnetic Materials 337-338, 46-52 (2013). 2012 1.Yong Hu, Guo-Zhen Wu, Yan Liu, and An Du. Field-induced transitions from negative to positive exchange bias in nanoparticles with inverted ferromagnetic-antiferromagnetic core-shell morphology, Journal of Applied Physics 111, 053904 (2012). 2.Yong Hu, Guozhen Wu, Yan Liu, and An Du. Resultant exchange bias and coercivity on rotatable antiferromagnetic anisotropy in ellipsoidal core/shell nanoparticles, Physics Letters A 376, 1650-1656 (2012). 3.Yong Hu, Guo-Zhen Wu, Yan Liu, An Du. Relative-thickness dependence of exchange bias in bilayers and trilayers, Journal of Magnetism and Magnetic Materials 324, 3204-3208 (2012). 2011 1.Yong Huand An Du. Surface-anisotropy and training effects of exchange bias in nanoparticles with inverted ferromagnetic-antiferromagnetic core-shell morphology, Journal of Applied Physics 110, 033908 (2011). 2.Yong Hu, Yan Liu, and An Du. Modeling of exchange bias in the antiferromagnetic (core)/ferromagnetic (shell) nanoparticles with specialized shapes, Journal of Magnetism and Magnetic Materials 323, 2613-2621 (2011). 3.Yong Huand An Du. Exchange bias in a nanogranular system with competing ferromagnetic and antiferromagnetic exchange interactions, Physica Status Solidi B 248, 2932-2940 (2011). 4.Yong Huand An Du. Anomalous temperature and interfacial-coupling dependence of exchange bias in antiferromagnetic (core)/ferromagnetic (shell) nanoparticles, Physica Status Solidi B 248, 1967-1974 (2011). 5.Yong Hu, Yan Liu, Yan Qi, and An Du. Exchange bias in a granular system of antiferromagnetic nanoparticles with strong magnetic anisotropy embedded in a ferromagnetic matrix, e-Journal of Surface Science and Nanotechnology 9, 126-133 (2011). 6.Yong Hu, Yan Liu, Yan Qi, and An Du. Effect of antiferromagnetic anisotropy on exchange bias in a single composite nanoparticle with unconventional antiferromagnetic-ferromagnetic core-shell morphology, e-Journal of Surface Science and Nanotechnology 9, 67-71 (2011). 2010 1.Yong Hu, Yan Liu, and An Du. Observation on asymmetric magnetization reversal in exchange-biased egg-shaped nanoparticles, Journal of Applied Physics 108, 033904 (2010). 2.Yong Huand An Du. Effects of component ratio and easy axes distribution on the exchange bias in ferromagnetic-antiferromagnetic random alloys, Physics Letters A 374, 2575-2579 (2010). 3.Yong Huand An Du. Shape-induced oscillation of exchange bias in the Co nanopillar with lateral oxidation, The European Physical Journal B 78, 373-379 (2010). 4.Yong Hu, Yan Ma, Yan Liu, and An Du. Effect of antiferromagnet on exchange bias in systems with antiferromagnetic interfacial coupling and inverted ferromagnetic-antiferromagnetic core-matrix morphology, Journal of Nanoscience and Nanotechnology 10, 7343-7346 (2010). 5.Yong Huand An Du. Blocking temperature in nanocrystalline systems with “alloy-like”ferromagnetic-antiferromagnetic heterogeneous morphology, Journal of Magnetism and Magnetic Materials 322, 844-850 (2010). 6.Yong Hu, Yan Liu, and An Du. Effect of cooling field strength and ferromagnetic shell shape on exchange bias in nanoparticles with inverted ferromagnetic-antiferromagnetic core-shell morphology, Physica Status Solidi B 247, 972-978 (2010). 2009 1.Yong Huand An Du. The core-shell separation of ferromagnetic nanoparticles with strong surface anisotropy, Journal of Nanoscience and Nanotechnology 9, 5829-5833 (2009). 2.Yong Huand An Du. Cooling-field dependence of exchange bias and asymmetric reversal modes in a nanoparticles system with ferromagnetic core and antiferromagnetic matrix morphology, Physica Status Solidi B 246, 2384-2391 (2009). 2008 1.Yong Huand An Du. Magnetization behavior and magnetic entropy change of frustrated Isingantiferromagnets on two- and three-dimensional lattices, Journal of Physics: Condensed Matter 20, 125225 (2008). 2.Yong Hu, Yan Liu, and An Du. The effect of cooling field on exchange bias in a nanoparticle system, Journal of Nanoengineering and Nanosystems 222, 17-22 (2008). 3.胡勇，杜安. 铁磁球/反铁磁纳米体系磁滞回线的Monte Carlo模拟，计算物理 25，374-378（2008）。 4.Yong Huand An Du. Effect of applied field strength on blocking temperature of systems with a heterogeneous morphology, Proceedings of 2nd international symposium on physics and high-tech industry, 4th international symposium on magnetic industry, 1st Shenyang forum for development and cooperation of high-tech industry in northeast Asia, 146-148 (2008). 2007 1.Yong Huand An Du. The effect of field-cooling strength and interfacial coupling on exchange bias in a granular system of ferromagnetic nanoparticles embedded in an antiferromagnetic matrix, Journal of Applied Physics 102, 113911 (2007).