丛洪涛 - 中国科学院金属研究所 - 沈阳先进材料研究发展中心

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纳米碳管及其增强金属基复合材料的制备、表征与应用探索；　准一维纳米半导体材料的制备与物性。

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Xingke Cai, Hongtao Cong *, Chang Liu，Synthesis of vertically-aligned carbon nanotubes without a catalyst by hydrogen arc discharge，Carbon 2012, 50 (8), 2726-2730. Shi CX, Cong HT*, Tuning the coercivity of Fe-filled carbon-nanotube arrays by changing the shape anisotropy of the encapsulated Fe nanoparticles，J. Appl. Phys. 2008, 104: 034307-1-5 Y.B. Tang, H.T. Cong*, Z.G.. Chen，H.M. Cheng, ""An Array of Eiffel-Tower-Shape AlN Nanotips and Its Field Emission Properties""，Appl. Phys. Lett. 86(23), 233104-1-3(2005) Y.B. Tang, X.H. Bo, C.S. Lee,* H.T. Cong,* H.M. Cheng, Z.H. Chen, W.J. Zhang, I. Bello, and S.T. Lee*, “Controllable Synthesis of Vertically Aligned p-Type GaN Nanorod Arrays on n-Type Si Substrates for Heterojunction Diodes” Adv. Funct. Mater. 18, 1–8( 2008) Y.B. Tang, Z.H. Chen, H.S Song, C.S. Lee,* H.T. Cong, H.M. Cheng, W.J. Zhang, I. Bello, ands S.T. Lee*, “Vertically Aligned p-Type Single-Crystalline GaN Nanorod Arrays on n-Type Si for Heterojunction Photovoltaic Cells” Nano Lett.8(12), 4191-5(2008) Y.B. Tang, H.T. Cong*, Z.G.. Zhao, H.M. Cheng, ""Field emission from AlN nanorod array"" Appl. Phy. Lett. 86(15), 153104-1-3 (2005 ) Y.B. Tang, H.T. Cong*, Z.M. Wang, H.M. Cheng, “Catalyst-seeded synthesis and field emission properties of flowerlike Si-doped AlN nanoneedle array” Appl. Phys. Lett. 89(25), 253112-1-3(2006) Y.B. Tang, H.T. Cong*,H.M. Cheng, ""Field emission from honeycomb-like network of vertically aligned AlN nanoplatelets"" Appl. Phys. Lett. 89(9),093113-1-3(2006) Y.B. Tang, H.T. Cong*, Z.M. Wang, H.M. Cheng, ""Synthesis of rectangular cross-section nanofibers AlN by chemical vapor deposition"" Chem. Phys. Lett. 416, 171-5 (2005) Y.B. Tang, H.T. Cong*, F. Li, H.M. Cheng, “Synthesis and photoluminescent property of AlN nanobelt array on Si substrate” Diam. Relat. Mater. 16, 537-41 (2007) Y.B. Tang, Y.Q. Liu, C.H. Sun, H.T. Cong*, “AlN nanowires for Al-based composites with high strength and low thermal expansion” J. Mater. Res. 22, 2711-18 (2007) H.T.Cong*, H. B. Ma, X. C. Sun, “Synthesis of Aluminum Nitride Nanowires” Physica B 323, 354-6(2002) F.X. Geng, Z.G. Zhao, H.T. Cong*, J.X. Geng, H.M. Cheng “An environment-friendly microemulsion approach to α-FeOOH nanorods at room temperature"", Materials Research Bulletin 41, 2238-43(2006) F.X. Geng, Z.G. Zhao, H.T. Cong, J.X. Geng, H.M. Cheng “A simple and low-temperature hydrothermal route for the synthesis of tubular α-FeOOH”, Mater. Lett. 61, 4794-6(2007) Liu QF, Ren WC, Chen ZG, Wang DW, Liu BL, Yu B, Li F, Cong HT, Cheng HM. Diameter-selective growth of single-walled carbon nanotubes with high quality by floating catalyst method. ACS Nano, 2008, 2(8): 1722-1728. Liu QF, Ren WC, Chen ZG, Liu BL, Yu B, Li F, Cong HT, Cheng HM. Direct synthesis of carbon nanotubes decorated with size-controllable Fe nanoparticles encapsulated by graphitic layers. Carbon, 2008, 46(11): 1417-1423. Liu QF, Chen ZG, Liu BL, Ren WC, Li F, Cong HT, Cheng HM. Synthesis of different magnetic carbon nanostructures by the pyrolysis of ferrocene at different sublimation temperatures. Carbon, 2008, 46(14): 1892-1902. Liu QF, Ren WC, Liu BL, Chen ZG, Li F, Cong HT, Cheng HM. Synthesis, purification and opening of short cup-stacked carbon nanotubes. J Nanosci. Nanotechnol. 2009, 9(8): 4554-60. Liu QF, Ren WC, Chen ZG, Yin LC, Li F, Cong HT, Cheng HM. Semiconducting properties of cup-stacked carbon nanotubes. Carbon, 2009, 47: 731-736.