Browsing by Author "Yu, XB"

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    Aluminum borohydride complex with ethylenediamine: crystal structure and dehydrogenation mechanism studies
    (American Chemical Society, 2016-04-20) Gu, QF; Wang, ZY; Filinchuk, Y; Kimpton, JA; Brand, HEA; Li, Q; Yu, XB
    We report the structure of an aluminum borohydride ethylenediamine complex, Al(EDA)3·3BH4·EDA. This structure was successfully determined using X-ray powder diffraction and was supported by first-principles calculations. The complex can be described as a mononuclear complex exhibiting three-dimensional supramolecular structure, built from units of Al[C2N2H8]3, BH4, and ethylenediamine (EDA) molecules. Examination of the chemical bonding indicates that this arrangement is stabilized via dihydrogen bonding between the NH2 ligand in EDA and the surrounding BH4. The partial ionic bonding between the Al and N atoms in EDA forms a five-member ring (5MR), an Al[NCCN] unit. The calculated H2 removal energies confirm that it is energetically favorable to remove the loosely bonded EDA and H atoms with N–H···H–B dihydrogen bonds upon heating. Our results suggest that the NH2 terminal ligand in the EDA molecule combines with a H atom in the BH4 group to release H2 at elevated temperature, and our results confirm that the experimental result Al(EDA)3·3BH4·EDA can release 8.4 wt % hydrogen above 149 °C with detectable EDA molecules. This work provides insights into the dehydrogenation behavior of Al(EDA)3·3BH4·EDA and has implications for future development of promising high-performance metal borohydride ethylenediamine complexes. © 2016 American Chemical Society
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    TiO2(B)@anatase hybrid nanowires with highly reversible electrochemical performance
    (Elsevier, 2011-01-01) Zang, ZX; Du, GD; Guo, ZP; Yu, XB; Chen, ZX; Guo, TL; Sharma, N; Liu, HK
    Novel TiO2(B)@anatase hybrid nanowires with a bicrystalline structure consisting of TiO2(B) core and anatase shell exhibit superior Li ion storage capacities, cycling stability and rate capability. Owing to the excellent electrochemical performance, TiO2(B)@anatase hybrid nanowires could be promising anode materials for lithium ion batteries. Crown Copyright (C) 2010 Published by Elsevier B.V.