English Version 
当前位置:首页 >> 学术交流



      近年来一直从事利用同步辐射光X射线衍射(XRD)与X射线吸收光谱(XAS)等技术研究二次电池材料体系储能机制与电池性能的构效关系。其研究方向涉及锂离子电池,钠离子电池,镁离子电池与锂硫电池等。至今已在包括Nature communications,Accounts of Chemical Research, Energy&Environmental Science,Advanced Energy Materials,Nano Letters在内的国际重要学术期刊上合作发表学术论文90余篇,引用4000余次,H因子37。

1. Probing the complexities of structural changes in layered oxide cathode materials for Li-Ion batteries during fast charge–discharge cycling and heating, E. Hu, X. Wang, X. Yu*, X.-Q. Yang, Acc. Chem. Res. (2018), DOI: acs.accounts.7b00506.
2. Structure-induced reversible anionic redox activity in Na layered oxide cathode, X. Rong, J. Liu, E. Hu, Y. Liu, Y. Wang, J. Wu, X. Yu*, K. Page, Y.-S. Hu*, W. Yang, H. Li, X.-Q. Yang, L. Chen, X. Huang, Joule (2018), 2, 125.
3. Synchrotron X-ray analytical techniques for studying materials electrochemistry in rechargeable batteries, F. Kin, Y. Liu, X. Yu, L. Chen, A. Singer, O. G. Shpyrko, H. Xin, N. Tamura, C. Tian, T. Weng, X.–Q. Yang, Y. Meng, D. Nordlund, W. Yang, M. M. Doeff, Chem. Rev. (2017), 117, 13123.
4. Finding a needle in the haystack: Identification of functionally important minority phases in an operating battery, K. Zhang, F. Ren, X. Wang, E. Hu, Y. Xu, X.-Q. Yang, H. Li, L. Chen, P. Pianetta, A. Mehta*, X. Yu*, Y. Liu*, Nano Lett. (2017), 17, 7782.
5. Na‐Ion intercalation and charge storage mechanism in 2D vanadium carbide, S. Bak, R. Qiao, W. Yang, S. Lee, X. Yu*, B. Anasori, H. Lee, Y. Gogotsi*, X.-Q. Yang*, Adv. Energy Mater. (2017), DOI: 10.1002/aenm.201700959.
6. Correlations between transition metal chemistry, local structure and global structure in Li2Ru0. 5Mn0. 5O3 investigated in a wide voltage window,  Y. Lyu, E. Hu, D. Xiao, Y. Wang, X. Yu*, G. Xu, S. N. Ehrlich, K. Amine, L. Gu*, X.-Q. Yang, H. Li*, Chem. Mater. (2017), 29, 9053
7. Explore the effects of microstructural defects on voltage fade of Li- and Mn-rich cathodes, E. Hu, Y. Lyu, H. Xin, J. Liu, L.L. Han, S.M. Bak, J. Bai, X. Yu*, H. Li*, X.-Q. Yang*, Nano Lett. (2016), 16, 5999.
8. Direct observation of the redistribution of sulfur and polysufides in Li–S batteries during the first cycle by in situ X-ray fluorescence microscopy, X. Yu, H. Pan, Y. Zhou, P. Northrup, J. Xiao, S. Bak, M. Liu, K. Nam, D. Qu, J. Liu*, T. Wu, X.-Q. Yang*, Adv. Energy Mater. (2015), 5, 1500072.
9. Ti-substituted tunnel-type Na0.44MnO2 oxide as a negative electrode for aqueous sodium-ion batteries, Y. Wang, J. Liu, B. Lee, R. Qiao, Z. Yang, S. Xu, X. Yu*, L. Gu*, Y.-S. Hu*, W. Yang, K. Kang, H. Li, X.-Q. Yang, L. Chen, X. Huang, Nature Commun. (2015), 6, 6401.
10. A high capacity positive electrode material with tunnel-type structure for aqueous sodium-ion batteries", Y. Wang, L. Mu, J. Liu, Z. Yang, X. Yu*, L. Gu*, Y.-S. Hu*, H. Li, X.-Q. Yang, L. Chen, X. Huang, Adv. Energy Mater. (2015), 5, 1501005.
11. Understanding the rate capability of high-energy-density Li-rich layered Li1.2Ni0.15Co0.1Mn0.55O2 cathode materials", X. Yu, Y. C. Lyu, L. Gu, H. M. Wu, S. M. Bak, Y. N. Zhou, K. Amine, S. N. Ehrlich, H. Li*, K. W. Nam, X. -Q. Yang*, Adv. Energy Mater. (2014), 4, 1300950.
12. A size-dependent sodium storage mechanism in Li4Ti5O12 investigated by a novel characterization technique combining in situ X-ray diffraction and chemical sodiation", X. Yu, H. Pan, W. Wan, C. Ma, J. Bai, Q. Meng, S.N. Ehrlich, Y. -S. Hu*, X.-Q. Yang*, Nano Lett. (2013), 13, 4721.
13. A zero-strain layered metal oxide as the negative electrode for long-life sodium-ion batteries", Y. Wang#, X. Yu#, S. Xu, J. Bai, R. Xiao*, Y.-S. Hu*, H. Li, X.-Q. Yang, L.Q. Chen, X.J. Huang, Nature Commun. (2013), 4, 2365.