[1] SU L, SHRESTHA S, ZHANG Z, et al. Platinumcopper nanotube electrocatalyst with enhanced activity and durability for oxygen reduction reactions[J]. Journal of Materials Chemistry A,2013,1(39):12293-12301.
[2] CUI C, LI H, LIU X, et al. Surface composition and lattice orderingcontrolled activity and durability of CuPt electrocatalysts for oxygen reduction reaction[J]. ACS Catalysis,2012,2(6):916-924.
[3] JASON N N, SHEN W, CHENG W. Copper nanowires as conductive ink for lowcost drawon electronics[J]. ACS Applied Materials & Interfaces,2015,7(30):16760-16766.
[4] JIANG Z, ZHANG Q, ZONG C, et al. CuAu alloy nanotubes with fivefold twinned structure and their application in surfaceenhanced Raman scattering[J]. Journal of Materials Chemistry,2012,22(35):18192-18197.
[5] LIANG H W, CAO X, ZHOU F, et al. A freestanding Ptnanowire membrane as a highly stable electrocatalyst for the oxygen reduction reaction[J]. Advanced Materials,2011,23(12):1467-1471.
[6] CHEN Z, WAJE M, LI W, et al. Supportless Pt and PtPd nanotubes as electrocatalysts for oxygenreduction reactions[J]. Angewandte Chemie International Edition,2007,46(22):4060-4063.
[7] ZHANG X, DONG D, LI D, et al. Direct electrodeposition of Pt nanotube arrays and their enhanced electrocatalytic activities[J]. Electrochemistry Communications,2009,11(1):190-193.
[8] GE Y, FA W, ZHOU J, et al. Singlewalled gold nanotubes grown in carbon nanotubes:molecular dynamics simulations[J]. Physics Letters A,2010,374(31):3258-3262.
[9] GAO P, ZHAN C, LIU M. Controlled synthesis of doubleand multiwall silver nanotubes with template organogel from a bolaamphiphile[J]. Langmuir,2006,22(2):775-779.
[10] XIA X, ZENG J, ZHANG Q, et al. Recent developments in shapecontrolled synthesis of silver nanocrystals[J]. The Journal of Physical Chemistry C,2012,116(41):21647-21656.