个人简介
2013年毕业于日本東北大学, 获得博士学位; 2013-2017年分别于德国马普智能系统所、中科院物理所从事博士后研究; 2018年至今在北京科技大学工作;
研究领域
高强高韧钢;锂离子电池材料;多孔金属催化及其透射电子显微学研究
近期论文
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[1] Yuren Wen, Xiao Chen, Xia Lu, Lin Gu. Interface charges boosted ultrafast lithiation in Li4Ti5O12 revealed by in-situ electron holography. Journal of Energy Chemistry (In press). [2] H.-J. Qiu,* J. J. Gao, F.-K. Chiang, Y. R. Wen,* A. Y. Yao, P. Du, G. Fang, J. Q. Wang* and X. J. Liu*. A general and scalable approach to produce nanoporous alloy nanowires with rugged ligaments for enhanced electrocatalysis. J. Mater. Chem. A, 2018, 6, 12541−12550. *corresponding author [3] H.-J. Qiu,* J. J. Gao, Y. R. Wen,* B. Shang, J. Q. Wang,* Xi Lin,* and Y. Wang*. Platinum Cluster/Nanoparticle on CoO Nanosheets with Coupled Atomic Structure and High Electrocatalytic Durability. ACS Appl. Energy Mater. 2018, 1, 1840−1845. [4] Yuren Wen, Dongdong Xiao, Xiaozhi Liu and Lin Gu. Microstructure dynamics of rechargeable battery materials studied by advanced transmission electron microscopy. NPG Asia Materials. 9, e360 (2017). [5] Yuren Wen, Tongtong Shang, Lin Gu. Analytical ABF-STEM imaging of Li ions in rechargeable batteries. Microscopy (Oxford). 66, 25 (2017). [6] J. J. Gao, H.-J. Qiu*, Y. R. Wen*, F.-K. Chiang, Y. Wang*. Enhanced Electrochemical Supercapacitance of Binder-Free Nanoporous Ternary Metal oxides/metal Electrode. Journal of Colloid & Interface Science. 474, 18 (2016). [7] Y. R. Wen, Y. P. Li, A. Hirata, Y. Zhang, T. Fujita, T. Furuhara, C. T. Liu, A. Chiba, M. W. Chen. Synergistic alloying effect on microstructural evolution and mechanical properties of Cu precipitation-strengthened ferritic alloys. Acta Materialia. 61, 7726 (2013). [8] Y. R. Wen, A. Hirata, Z. W. Zhang, T. Fujita, C. T. Liu, J. H. Jiang, M. W. Chen. Microstructure characterization of Cu-rich nanoprecipitates in a Fe–2.5Cu–1.5Mn–4.0Ni–1.0Al multicomponent ferritic alloy. Acta Materialia. 61, 2133 (2013). [9] Y. R. Wen, Y. Liu, A. Hirata, F. Liu, T. Fujita, Y. H. Dou, D. H. Liu, B. Liu, Z. M. Liu, C. T. Liu. Innovative processing of high-strength and low-cost ferritic steels strengthened by Y–Ti–O nanoclusters. Materials Science and Engineering. A. 544, 59 (2012). [10] Y. R. Wen, Y. Liu, F. Liu, T. Fujita, D.H. Liu, M.W. Chen, B.Y. Huang. Addition of Fe2O3 as oxygen carrier for preparation of nanometer-sized oxide strengthened steels. Journal of Nuclear Materials. 405, 199 (2010).