| Recent advances and remaining challenges of nanostructured materials for hydrogen storage applications X Yu, Z Tang, D Sun, L Ouyang, M Zhu Progress in Materials Science 88, 1-48, 2017 | 648 | 2017 |
| Enhanced hydrogen sorption properties of Ni and Co-catalyzed MgH2 J Mao, Z Guo, X Yu, H Liu, Z Wu, J Ni International journal of hydrogen energy 35 (10), 4569-4575, 2010 | 371* | 2010 |
| Monodisperse magnesium hydride nanoparticles uniformly self-assembled on graphene. G Xia, Y Tan, X Chen, D Sun, Z Guo, H Liu, L Ouyang, M Zhu, X Yu Advanced Materials (Deerfield Beach, Fla.) 27 (39), 5981-5988, 2015 | 347 | 2015 |
| General synthesis of dual carbon‐confined metal sulfides quantum dots toward high‐performance anodes for sodium‐ion batteries Z Chen, R Wu, M Liu, H Wang, H Xu, Y Guo, Y Song, F Fang, X Yu, D Sun Advanced Functional Materials 27 (38), 1702046, 2017 | 284 | 2017 |
| Room-temperature hydrogen storage characteristics of ZnO nanowires Q Wan, CL Lin, XB Yu, TH Wang Applied Physics Letters 84 (1), 124-126, 2004 | 282 | 2004 |
| Recent progress in phosphorus based anode materials for lithium/sodium ion batteries W Liu, H Zhi, X Yu Energy Storage Materials 16, 290-322, 2019 | 271 | 2019 |
| Three-dimensional MOFs@ MXene aerogel composite derived MXene threaded hollow carbon confined CoS nanoparticles toward advanced alkali-ion batteries L Yao, Q Gu, X Yu ACS nano 15 (2), 3228-3240, 2021 | 229 | 2021 |
| Synthesis of uniform TiO 2@ carbon composite nanofibers as anode for lithium ion batteries with enhanced electrochemical performance Z Yang, G Du, Q Meng, Z Guo, X Yu, Z Chen, T Guo, R Zeng Journal of Materials Chemistry 22 (12), 5848-5854, 2012 | 200 | 2012 |
| Dehydrogenation of LiBH4 Destabilized with Various Oxides XB Yu, DM Grant, GS Walker The Journal of Physical Chemistry C 113 (41), 17945-17949, 2009 | 147 | 2009 |
| Porous Ni nanofibers with enhanced catalytic effect on the hydrogen storage performance of MgH 2 J Chen, G Xia, Z Guo, Z Huang, H Liu, X Yu Journal of Materials Chemistry A 3 (31), 15843-15848, 2015 | 144 | 2015 |
| Improved hydrogen storage properties of LiBH4 destabilized by carbon XB Yu, Z Wu, QR Chen, ZL Li, BC Weng, TS Huang Applied physics letters 90 (3), 2007 | 144 | 2007 |
| Carbon hollow nanobubbles on porous carbon nanofibers: an ideal host for high-performance sodium-sulfur batteries and hydrogen storage G Xia, L Zhang, X Chen, Y Huang, D Sun, F Fang, Z Guo, X Yu Energy Storage Materials 14, 314-323, 2018 | 135 | 2018 |
| Borohydride‐scaffolded Li/Na/Mg fast ionic conductors for promising solid‐state electrolytes J Cuan, Y Zhou, T Zhou, S Ling, K Rui, Z Guo, H Liu, X Yu Advanced Materials 31 (1), 1803533, 2019 | 134 | 2019 |
| A new dehydrogenation mechanism for reversible multicomponent borohydride systems—The role of Li–Mg alloys XB Yu, DM Grant, GS Walker Chemical communications, 3906-3908, 2006 | 133 | 2006 |
| Enhancement of hydrogen storage capacity of Ti–V–Cr–Mn BCC phase alloys XB Yu, Z Wu, BJ Xia, NX Xu Journal of alloys and compounds 372 (1-2), 272-277, 2004 | 133 | 2004 |
| Significantly improved dehydrogenation of LiBH 4 destabilized by TiF 3 YH Guo, XB Yu, L Gao, GL Xia, ZP Guo, HK Liu Energy & Environmental Science 3 (4), 464-469, 2010 | 130 | 2010 |
| Hydrogen release from amminelithium borohydride, LiBH 4· NH 3 Y Guo, G Xia, Y Zhu, L Gao, X Yu Chemical Communications 46 (15), 2599-2601, 2010 | 124 | 2010 |
| The hydrogen‐enriched Al–B–N system as an advanced solid hydrogen‐storage candidate Y Guo, X Yu, W Sun, D Sun, W Yang Angewandte Chemie 5 (123), 1119-1123, 2011 | 123 | 2011 |
| Designing composite solid-state electrolytes for high performance lithium ion or lithium metal batteries T Zhang, W He, W Zhang, T Wang, P Li, ZM Sun, X Yu Chemical Science 11 (33), 8686-8707, 2020 | 120 | 2020 |
| Graphene oxide based recyclable dehydrogenation of ammonia borane within a hybrid nanostructure Z Tang, H Chen, X Chen, L Wu, X Yu Journal of the American Chemical Society 134 (12), 5464-5467, 2012 | 117 | 2012 |
