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  • 1. Li, S.
    et al.
    Xue, L.
    Fu, K.
    Xia, X.
    Zhao, Chengxin
    KTH, School of Information and Communication Technology (ICT).
    Zhang, X.
    High-performance Sn/carbon composite anodes derived from Sn(II) acetate/polyacrylonitrile precursors by electrospinning technology2013In: Current organic chemistry, ISSN 1385-2728, E-ISSN 1875-5348, Vol. 17, no 13, p. 1448-1454Article in journal (Refereed)
    Abstract [en]

    Sn/carbon composite nanofibers with various compositions were prepared from Sn(II) acetate/polyacrylonitrile (PAN) precursors by a combination of electrospinning and carbonization methods, and their potential use as anode materials for rechargeable lithiumion batteries was investigated. The composite electrode derived from 20 wt% Sn(II) acetate/PAN precursor showed excellent electrochemical properties, including a large reversible capacity of 699 mAh g-1 and a high capacity retention of 83% in 50 cycles. Sn/carbon composite nanofibers exhibited enhanced electrochemical performance ascribing to the combination of the properties of both Sn nanoparticles (large Li storage capability) and carbon matrices (long cycle life), and therefore could be potentially used in high-energy rechargeable lithium-ion batteries.

  • 2. Wang, X. -C
    et al.
    Li, F. -W
    Zhao, Chengxin
    KTH, School of Information and Communication Technology (ICT).
    Quantized H∞ control for uncertain networked system2011In: Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology), ISSN 1672-7207, Vol. 42, no SUPPL. 1, p. 392-398Article in journal (Refereed)
    Abstract [en]

    Network-induced delay, data packet drop-out and perturbation are common problems for networked system. The designing of quantized feedback H∞ controller, focusing on the above problem was studied. In this general model, two logarithms were quantized used for the quantizing of control signal and status signal, and the sufficient condition for the asymptotical stability of the network control systems and the design of quantized feedback controller was proposed according to the Lyapunov stability theory and linear matrix inequality. The quantized feedback controller can make the systems asymptotically stable and meet H∞ performance. The design is confirmed to be efficient by the simulation result.

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