References
- Cademartiri , L. and Ozin , G.A. 2009 . Ultrathin nanowires—A materials chemistry perspective . Adv. Mater. , 21 : 1013 – 1020 .
- Pascual , J.I. , Méndez , J. , Gómez-Herrero , J. , Baró , A.M. , García , N. , Landman , U. , Luedtke , W.D. , Bogachek , E.N. and Cheng , H.P. 1995 . Properties of metallic nanowires: From conductance quantization to localization . Science , 67 ( 24 ) : 1793 – 1795 .
- Dresselhaus , M.S. , Chen , G. , Tang , M.Y. , Yang , R.G. , Lee , H. , Wang , D.Z. , Ren , Z.F. , Fleurial , J.P. and Gogna , P. 2007 . New directions for low-dimensinal thermoelectric materials . Adv. Mater. , 19 : 1043 – 1053 .
- Teng , X. , Han , W.Q. , Ku , W. and Hucker , M. 2008 . Synthesis of ultrathin palladium and platinum nanowires and a study of their magnetic properties . Angew. Chem. Int. Ed. , 47 : 2055 – 2058 . Available at: http://onlinelibrary.wiley.com/doi/10.1002/anie.200704707/full-nss
- Arutyunov , K.Y. 2008 . Negative magnetoresistance of ultra-narrow superconducting nanowires in the resistive state . Phys. C , 468 : 272 – 275 .
- Nikolaeva , A.A. , Konopko , L.A. , Huber , T.E. , Sineavsky , E.P. , Khamidullin , R.A. and Tsurkan , A.C. 2009 . Negative magnetoresistance in transverse and longitudinal magnetic fields in Bi nanowires . J. Phys. Conf. Ser. , 150 : 1 – 4 . 022065
- Hu , L. , Cao , X. , Yang , J. , Li , M. , Hong , H. , Xu , Q. , Ge , J. , Wang , L. , Lu , J. , Chen , L. and Hongwei , G. 2011 . Oxidation of benzylic compounds by gold nanowires at 1 atm O2 . Chem. Commun. , 47 : 1303 – 1305 .
- Koenigsmann , C. , Santulli , A.C. , Gong , K. , Vukmirovic , M.B. , Zhou , W. , Sutter , E. , Wong , S.S. and Adzic , R.R. 2011 . Enhanced electrocatalytic performance of processed, ultrathin, Supported Pd_Pt core_shell nanowire catalysts for the oxygen reduction reaction . J. Am. Chem. Soc. , 133 : 9783 – 9795 .
- Cui , Y. , Wei , Q. , Park , H. and Lieber , C.M. 2001 . Nanowire nanosensors for highly sensitive and selective detection of biological and chemical species . Science , 293 : 1289 – 1292 .
- Lieber , C.M. 2003 . Nanoscale Science and Technology: Building a Big Future from Small Things . MRS Bulletin , July
- Gülseren , O. , Ercolessi , F. and Tosatti , E. 1998 . Noncrystalline structures of ultrathin unsupported nanowires . Phys. Rev. Lett. , 80 ( 17 ) : 3775 – 3778 .
- Peng , C. , Gong , J. and Wanga , L. 2009 . The structure of ultrathin Ni nanowires . Computat. Mater. Sci. , 46 : 229 – 232 .
- Wang , B. , Wang , G. , Ren , Y. , Sun , H. , Chen , X. and Zhao , J. 2003 . Electronic and magnetic properties of ultrathin rhodium nanowires . J. Phys. Condens. Matter , 15 : 2327 – 2334 .
- Kang , J.W. , Seo , J.J. and Hwang , H.J. 2002 . Structures of ultrathin copper nanotubes . J. Phys. Condens. Matter , 14 : 8997 – 9005 .
- Agrawal , B.K. , Singh , V. , Srivastava , R. and Agrawal , S. 2006 . Ab initio study of the structural, electronic, and optical properties of ultrathin lead nanowires . Phys. Rev. B , 74 : 245405-1 – 245405-12 .
- Wang , B. , Yin , S. , Wang , G. , Buldum , A. and Zhao , J. 2001 . Novel structures and properties of gold nanowires . Phys. Rev. Lett. , 86 ( 10 ) : 2046 – 2049 .
- Kondo , Y. and Takayanagi , K. 2000 . Synthesis and characterization of helical multi-shell gold nanowires . Science , 289 : 606 – 608 .
- Oshima , Y. and Onga , A. 2003 . Helical gold nanotube synthesized at 150 K . Phys. Rev. Lett. , 91 ( 20 ) : 205503-1 – 205503-4 .
- Kang , J.W. and Hwang , H.J. 2003 . Molecular dynamics simulations of ultra-thin Cu nanowires . Computat. Mater. Sci. , 27 : 305 – 312 .
- Wena , Y.H. , Zhua , Z.Z. , Zhub , R. and Shaoc , G.F. 2004 . Size effects on the melting of nickel nanowires: A molecular dynamics study . Phys. E , 25 : 47 – 54 .
- Huertas-Miranda , J.A. , Quiñones-Fontalvo , L. and Martínez-Iñesta , M.M. 2009 . Molecular simulations studies of the synthesis of Ni nanowires in zeolite cancrinite . Proc. Nanotech. , 2009 ( 3 ) : 280 – 283 .
- Huertas-Miranda , J.A. and Martínez-Iñesta , M.M. 2009 . Monte Carlo simulation studies for the templated synthesis of Ni nanowires in zeolites . Sensors Transducers J. , 7 : 116 – 124 .
- Quiñones , L. , Grazul , J. and Martínez-Iñesta , M.M. 2009 . Synthesis of platinum nanostructures in zeolite mordenite using a solid-state reduction method . Mater. Lett. , 63 : 2684 – 2686 .
- Huertas-Miranda , J.A. and Martínez-Iñesta , M.M. 2010 . Si/Al and metal loading effects on the templated synthesis of Ni nanowires in CAN and MOR zeolite frameworks . Mol. Simul. , 36 ( 12 ) : 1004 – 1012 .
- Huertas-Miranda , J.A. and Martínez-Iñesta , M.M. 2010 . Monte Carlo studies of the effect of temperature . Si/Al and metal loading on the templated synthesis of Pt nanowires in MOR- type zeolites, Proc. Nanotech. , 2 : 633 – 636 .
- Huertas-Miranda , J.A. and Martínez-Iñesta , M.M. 2011 . Effect of temperature, Si/Al, and metal loading on the positioning of Pt atoms in MOR-type zeolites . Mol. Simul. , accepted for publication in September 2011. Available at http://www.tandfonline.com
- Sun , H. , Mumby , S.T. , Maple , J.R. and Hagler , T. 1995 . Ab initio calculations on small molecule analogues for polycarbonates . J. Phys. Chem. , 99 : 5873 – 5882 .
- Sun , H. 1995 . Ab initio calculations and force field development for computer simulation of polysilianes . Macromolecules , 78 : 701 – 712 .