Диссертация (1145403), страница 38
Текст из файла (страница 38)
2004. Vol. 24, no. 5. Pp. 621–638.28. Xu Chenjie, Xu Keming, Gu Hongwei, Zheng Rongkun, Liu Hui, ZhangXixiang, Guo Zhihong, Xu Bing. Dopamine as A Robust Anchor to Immo-281bilize Functional Molecules on the Iron Oxide Shell of Magnetic Nanoparticles // Journal of the American Chemical Society. 2004.
Vol. 126, no. 32.Pp. 9938–9939.29. Chiang C.-L., Sung C.-S., Wu T.-F., Chen C.-Y., Hsu C.-Y. Application ofsuperparamagnetic nanoparticles in purification of plasmid {DNA} frombacterial cells // Journal of Chromatography B. 2005. Vol. 822, no. 1–2.Pp. 54–60.30. Akira I., Masashige S., Hiroyuki H., Takeshi K. Medical application offunctionalized magnetic nanoparticles // Journal of Bioscience and Bioengineering. 2005. Vol.
100, no. 1. Pp. 1–11.31. Gu Hongwei, Xu Keming, Xu Chenjie, Xu Bing. Biofunctional magneticnanoparticles for protein separation and pathogen detection // Chem.Commun. 2006. Pp. 941–949.32. Pan B., Cui D., Sheng Y., Ozkan C., Gao F., He R., Li Q., Xu P., HuangT. Dendrimer-modified magnetic nanoparticles enhance efficiency of genedelivery system // Cancer Res. 2007. Vol. 67, no. 17. Pp. 8156–8163.33. Chang S.-Y., Zheng N.-Y., Chen C.-S., Chen C.-D., Chen Y.-Y., WangC.R.C. Analysis of Peptides and Proteins Affinity-Bound to Iron OxideNanoparticles by {MALDI} {MS} // Journal of the American Society forMass Spectrometry.
2007. Vol. 18, no. 5. Pp. 910–918.34. Gleiter H. Nanostructured materials. Basic concepts and microstructure // Acta Mater. 2000. Vol. 48, no. 1. Pp. 1–29.28235. Скороход В.В., Уварова И.В., Рагуля А.В. Физико-химичческаякинетика в наноструктурних системах. Киев: Академпериодика, 2001.180 pp.36. Pokropivny V.V., Skorokhod V.V. Biomimetic and Supramolecular Systems // Materials Science and Engineering C. 2007. Vol. 27. Pp. 990–993.37. Ustinov V.M.., Zhukov A.E., Kovsh A.R., Mikhrin S.S., Maleev N.A.,Volovik B.V., Musikhin Yu.G., ShernyakovYu.M., Kondat’eva E.Yu., Maximov M.V., Tsatsul’nikov A.F., Ledentsov N.N., Alferov Zh.I., Lott J.A.,Bimberg D. Long-wavelength quantum dot lasers on GaAs substrates //Nanotechnology.
2000. Vol. 11, no. 4. Pp. 397–400.38. Mokerov V.G., Fedorov Y.V., Velikovski L.E., Scherbakova M.Y. Newquantum dot transistor // Nanotechnology. 2001. Vol. 12, no. 4. Pp. 552–555.39. Gautam U.K., Vivekchand S.R.C., Govindaraj A., Kulkarni G.U., SelviN.R., Rao C.N.R. Generation of Onions and Nanotubes of GaS and GaSethrough Laser and Thermally Induced Exfoliation // Journal of the American Chemical Society. 2005. Vol. 127, no. 11.
Pp. 3658–3659.40. Stouwdam J.W., Janssen R.A.J. Red, green, and blue quantum dot LEDswith solution processable ZnO nanocrystal electron injection layers // J.Mater. Chem. 2008. Vol. 18. Pp. 1889–1894.41. Zhang G., Wang D. Fabrication of Heterogeneous Binary Arrays ofNanoparticles via Colloidal Lithography // Journal of the AmericanChemical Society. 2008.
Vol. 130, no. 17. Pp. 5616–5617.28342. Wang J., Lin M., Yan Y., Wang Z., Ho P.C., Loh K.P. CdSe/AsSCore/Shell Quantum Dots: Preparation and Two-Photon Fluorescence //Journal of the American Chemical Society.2009.Vol. 131, no. 32.Pp. 11300–11301.43. Lee J.Y., Hong B.H., Kim W.Y., Min S.K., Kim Y., Jouravlev M.V., BoseR., Kim K.S., Hwang I.-C., Kaufman L.J., Wong C.W., Kim P., Kim K.S.Near-field focusing and magnification through self-assembled nanoscalespherical lenses // Nature. 2009. Vol. 460, no.
7254. Pp. 498–501.44. Lee W., Kang S.H., Kim J.Y., Kolekar G.B., Sung Y.E., Han S.H. T iO2nanotubes with a ZnO thin energy barrier for improved current efficiency of CdSe quantum-dot-sensitized solar cells // Nanotechnology. 2009.Vol. 20, no. 33. P. 335706.45. Kim Y.-T., Han J.H., Hong B.H., Kwon Y.-U. Electrochemical Synthesis ofCdSe Quantum-Dot Arrays on a Graphene Basal Plane Using MesoporousSilica Thin-Film Templates // Advanced Materials.
2010. Vol. 22, no. 4.Pp. 515–518.46. Hong B.H., Bae S.C., Lee C.W., Jeong S., Kim K.S. Ultrathin SingleCrystalline Silver Nanowire Arrays Formed in an Ambient SolutionPhase // Science. 2001. Vol. 294, no. 5541. Pp. 348–351.47. Hong B.H., Lee J.Y., Lee C.W., Kim J.C., Bae S.C., Kim K.S. SelfAssembled Arrays of Organic Nanotubes with Infinitely Long OneDimensional H-Bond Chains // Journal of the American Chemical Society.2001. Vol.
123, no. 43. Pp. 10748–10749.28448. Huang L., Wang H., Wang Z., Mitra A., Zhao D., Yan Y. CupriteNanowires by Electrodeposition from Lyotropic Reverse Hexagonal Liquid Crystalline Phase // Chemistry of Materials. 2002. Vol. 14, no. 2.Pp. 876–880.49. Kim K.S., Suh S.B., Kim J.C., Hong B.H., Lee E.C., Yun S., Tarakeshwar P., Lee J.Y., Kim Y., Ihm H., Kim H.G., Lee J.W., Kim J.K., LeeH.M., Kim,D., Cui C., Youn S.J., Chung H.Y., Choi H.S., Lee C.-W., ChoS.J., Jeong S., Cho J.-H. Assembling Phenomena of Calix[4]hydroquinoneNanotube Bundles by One-Dimensional Short Hydrogen Bonding and Displaced Stacking // Journal of the American Chemical Society. 2002.
Vol.124, no. 47. Pp. 14268–14279.50. Cao L.M., Tian H., Zhang Z., Zhang X.Y., Gao C.X., Wang W.K. Nucleation and growth of feather-like boron nanowire nanojunctions // Nanotechnology. 2004. Vol. 15, no. 1. Pp. 139–142.51. Wang Y.W., Hong B.H., Lee J.Y., Kim J.S., Kim G.H., Kim K.S. Antimony Nanowires Self-Assembled from Sb Nanoparticles // The Journal ofPhysical Chemistry B. 2004. Vol.
108, no. 43. Pp. 16723–16726.52. Hong B.H., Small J.P., Purewal M.S., Mullokandov A., Sfeir M.Y., WangF., Lee Ju Y., Heinz T.F., Brus L.E., Kim P., Kim K,S. Extracting subnanometer single shells from ultralong multiwalled carbon nanotubes //Proceedings of the National Academy of Sciences of the United States ofAmerica. 2005. Vol. 102, no. 40. Pp. 14155–14158.28553. Hong B.H., Lee J.Y., Beetz T., Zhu Y., Kim P., Kim K.S. QuasiContinuous Growth of Ultralong Carbon Nanotube Arrays // Journal ofthe American Chemical Society. 2005.
Vol. 127, no. 44. Pp. 15336–15337.54. Okada T., Kawashima K., Nakata Y., Ning X. Synthesis of ZnO Nanorodsby Laser Ablation of ZnO and Zn Targets in He and O2 BackgroundGas // Jpn. J. Appl. Phys. 2005. Vol. 44, no. 1B. Pp. 688–691.55. Wang Y., Lee J.Y., Kim J.S., Kim G.H., Kim K.S. Diameter- and LengthDependent Volume Plasmon Excitation of Bismuth Nanorods Investigatedby Electron Energy Loss Spectroscopy // Chemistry of Materials.
2007.Vol. 19, no. 16. Pp. 3912–3916.56. Kuchibhatla S.V.N.T., Karakoti A.S., Debasis Bera, Seal S. One dimensional nanostructured materials // Progress in Materials Science. 2007.Vol. 52, no. 5. Pp. 699–913.57. Kim W.Y., Choi Y.C., Kim K.S. Understanding structures and electronic/spintronic properties of single molecules, nanowires, nanotubes, andnanoribbons towards the design of nanodevices // J. Mater. Chem.
2008.Vol. 18. Pp. 4510–4521.58. Yoon S.M., Hwang I.C., Kim K.S., Choi H.C. Synthesis of Single-CrystalTetra(4-pyridyl)porphyrin Rectangular Nanotubes in the Vapor Phase //Angewandte Chemie International Edition.2009.Vol. 48, no. 14.Pp. 2506–2509.59. Hwang I.-C., Heo S.W., Singh N.J., Lee J.W., Chun Y., Baek S.B., JinK.S., Ree M., Lee H.C., Kim S.B., Kim K.S.
Self-Assembled Thermally286Highly Stable 1-Dimensional Proton Arrays // The Journal of PhysicalChemistry B. 2010. Vol. 114, no. 21. Pp. 7216–7221.60. Park J.M., Nalwa K.S., Leung W., Constant K., Chaudhary S., Ho K.M.Fabrication of metallic nanowires and nanoribbons using laser interferencelithography and shadow lithography // Nanotechnology. 2010. Vol. 21,no. 21.
P. 215301.61. Li G.R., Feng Z.P., Zhong J.H., Wang Z.L., Tong Y.X. Electrochemical Synthesis of Polyaniline Nanobelts with Predominant ElectrochemicalPerformances // Macromolecules. 2010. Vol. 43, no. 5. Pp. 2178–2183.62. Xia H., Feng J., Wang H., Lai M.O., Lu L.
M nO2 nanotube and nanowirearrays by electrochemical deposition for supercapacitors // Journal ofPower Sources. 2010. Vol. 195, no. 13. Pp. 4410–4413.63. Jun J.W., Seo J.W., Oh S.J., Cheon J. Recent advances in the shapecontrol of inorganic nano-building blocks // Coordination Chemistry Reviews. 2005. Vol. 249, no. 17–18.
Pp. 1766–1775.64. Pradhan D., Leung K.T. Vertical Growth of Two-Dimensional Zinc OxideNanostructures on ITO-Coated Glass: Effects of Deposition Temperatureand Deposition Time // The Journal of Physical Chemistry C. 2008. Vol.112, no. 5. Pp. 1357–1364.65. Tiwari J.N., Pan F.M., Tiwari R.N., Nandi S.K. Facile synthesis of continuous P t island networks and their electrochemical properties for methanolelectrooxidation // Chem. Commun. 2008. Pp. 6516–6518.28766. Jung S.H., Oh E., Lee K.H., Yang Y., Park C.G., Park W., Jeong S.H. Sonochemical Preparation of Shape-Selective ZnO Nanostructures //Crystal Growth and Design. 2008.
Vol. 8, no. 1. Pp. 265–269.67. Kim K.S., Zhao Y., Jang H., Lee S.Y., Kim J.M., Kim K.S., Ahn J.H.,Kim P., Choi J.-Y., Hong B.H. Large-scale pattern growth of graphenefilms for stretchable transparent electrodes // Nature. 2009. Vol. 457, no.7230. Pp. 706–710.68. Bae S., Kim H., Lee Y., Xu X., Park J.S., Zheng Y., Balakrishnan J., LeiT., Kim X.R., Song Y.II, Kim Y.-J., Kim K.S., ?zyilmaz B., Ahn J.H.,Hong B.H., Iijima S. Roll-to-roll production of 30-inch graphene films fortransparent electrodes // Nature Nanotechnolgy. 2010.
Vol. 5, no. 8.Pp. 574–578.69. Siril P.F., Ramos L., Beaunier P., Archirel P., Etcheberry A., Remita H.Synthesis of Ultrathin Hexagonal Palladium Nanosheets // Chemistry ofMaterials. 2009. Vol. 21, no. 21. Pp. 5170–5175.70. Nayak B.B., Behera D., Mishra B.K. Synthesis of Silicon Carbide Dendriteby the Arc Plasma Process and Observation of Nanorod Bundles in theDendrite Arm // Journal of the American Ceramic Society. 2010.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
