2006-2010年
2010-12-31 | 【 】
18.liang li, xincun dou, hongqiang wang, guanghai li, and lide zhang, pulse delectrode position and unique properties of one-dimensional bi-based nanostructures in porous alumina membranes, pure and applied chemistry, 2010, 82, 2075-2095.
17.l. li, dou, x. c., g. h. li, semimetal nanowiresand their superlattices in anodic alumina membranes, recent patents on nanotechnology, 2010, 4, 181-193.
16.huang, x. h.; li, g. h.; sun, g. z.; dou, x. c.; li, l.; zheng, l. x., initial growth of single-crystalline nanowires: from 3d nucleation to 2d growth, nanoscale research letters, 2010, 5, 1057-1062.
15.dou, x. c.; li, g. h.; huang, x. h.; li, l., thermal contraction of electrodeposited bi/bisb superlattice nanowires, nanoscale research letters, 2010, 5, 1118-1123.
14.tang, c. j.; zhang, y. x.; dou, x. c.; li, g. h., seed-assistant hydrothermal synthesis of 3d bi2s3 matlike architecture, journal of crystal growth, 2009, 312, 692-697.
13.tang, c. j.; li, g. h.; dou, x. c.; zhang, y. x.; li, l., thermal expansion behaviors of bismuth nanowires, journal of physical chemistry c, 2009, 113, 5422-5427.
12.huang, x. h.; li, g. h.; duan, l.; li, l.; dou, x. c.; zhang, l., formation of zno nanosheets with room-temperature ferromagnetism by co-doping with mn and ni, scripta materialia, 2009, 60, 984-987.
11.huang, x. h.; li, g. h.; dou, x. c.; li, l., magnetic properties of single crystalline conanowire arrays with different diameters and orientations, journal of applied physics, 2009, 105, 084306.
10.dou, x. c.; li, g. h.; lei, h. c.; huang, x. h.; li, l.; boyd, i. w., template epitaxial growth of thermoelectric bi/bisb superlattice nanowires by charge-controlled pulse electrodeposition, journal of the electrochemical society, 2009, 156, k149-k154.
9.li, l.; xu, x. j.; chew, h. g.; huang, x. h.; dou, x. c.; pan, s. s.; li, g. h.; zhang, l. d., direct growth of al nanowire arrays: thermal expansion and fieldemission properties, journal of physical chemistry c, 2008, 112, 5328-5332.
8.huang, x. h.; zhu, y. g.; dou, x. c.; li, g. h., tuning peculiarantimony micro-and nano-morphology via a novel electrodeposition approach, materials letters, 2008, 62, 249-251.
7.huang, x. h.; yang, y. w.; dou, x. c.; zhu, y. g.; li, g. g., insitu synthesis of bi/bi2s3heteronanowires with nonlinear electrical transport, journal of alloys and compounds, 2008, 461, 427-431.
6.dou, x. c.; li, g. h.; lei, h. c., kinetic versus thermodynamic control over growth process of electrodeposited bi/bisb superlattice nanowires, nano letters, 2008, 8, 1286-1290.
5.dou, x. c.; li, g. h.; huang, x.h.; li, l., abnormal growth of electrodeposited bisb alloy nanotubes, journalof physical chemistry c, 2008, 112, 8167-8171.
4.li, l.; pan, s. s.; dou, x. c.; zhu, y. g.; huang, x. h.; yang, y. w.; li, g. h.;zhang, l. d., direct electrodeposition of zno nanotube arrays in anodic aluminamembranes, journal of physical chemistry c, 2007, 111, 7288-7291.
3.huang, x. h.; dou, x. c.; li, g. h., in situ synthesis of bi/bi2s3 nanoheterojunction and its electrical transport, journal of central south university of technology, 2007, 14, 145-149.
2.zhu, y. g.; dou, x. c.; huang, x. h.; li, l.; li, g. h., thermal properties of bi nanowire arrays with different orientations and diameters, journalof physical chemistry b, 2006, 110, 26189-26193.
1.dou, x. c.; zhu, y. g.; huang, x.h.; li, l.; li, g. g., effective deposition potential induced size-dependentorientation growth of bi-b alloy nanowire arrays, journal of physical chemistry b, 2006, 110, 21572-21575.
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