___

• - National Nanotechnology Initiative: The Initiative and its Implementation Plan, pp. 19–20.
• Washington, D.C., National Science and Technology Council, Committee on Technology,
• Subcommittee on Nanoscale Science, Engineering and technology 2000.
• - Corbett J., et al., “Nanotechnology: international developments and emerging products”,
• Ann. CIRP 49 (2), 523–545, 2000.
• - Abad, E. et al., NanoDictionary, Collegium Basilea, Basel, 2005.
• - Callister WD, Rethwisch DG, Materials Science and Engineering. Eight Editions, 2013.
• - Kumar, V. Nanosilicon, ISBN: 978-0-08-044528-1, First Edition, 2007.
• - Ramsden J., “Nanotechnology: An introduction” (ISBN: 978-0-08-096447-8) 2011 Elsevier.
• - Feynman R., There’s plenty of room at the bottom, J. Microelectromech. Syst. 1, 60–66,
• (transcript of a talk given by the author on 26 December 1959 at the annual meeting of
• the American Physical Society at the California Institute of Technology).
• - Minsky M.L., “Where is our microtechnology? in: The Scientist Speculates”, I.J. Good,
• (Ed.), Heinemann, London, pp. 139, 1962.
• - Wolfgang L. Bottom-up Methods for Making Nanotechnology Products.
• http://www.azonano.com/article.aspx?ArticleID=1079, Erişim 15 Aralık 2014.
• - Sergeev B. E., “Nanochemistry”, Elsevier B. V., Amsterdam, Netherlands, 2006.
• - Stephen, W., Richard, J. and Alison, G., 2003. Physics at the Nanoscale, and
• Nanotechnology Production Methods with Special Focus on Biology.
• http://www.azonano.com/Details. asp?ArticleID=1207, Erişim 15 Aralık 2014.
• - Zaki, A. Processing and Synthesis Techniques for the Preparation of Nanomaterials.
• http://www.azonano.com/details.asp?ArticleID= 1710, Erişim 15 Aralık 2014.
• - Türker, M., Asal gaz yoğunlaştırma metodu ile nano boyutlu Ag tozlarının üretimi ve
• özelliklerinin değerlendirilmesi, Turkish J. Eng. Env. Sci., 26, 147-154, 2002.
• - Edelstein A. S. Cammarata R. C., “Nanomaterials: Synthesis, Properties and Applications”,
• Institute of Physics Publishing, Bristol 2001.
• - Goldstain A., Handbook of Nanophase Materials, Marcel Dekker Inc, New York 1997.
• - Rao C.N. R., Müller A., Cheetham A. K. “The Chemistry of Nanomaterials” V. 1, WILEYVCH
• Verlag GmbH & Co. KgaA, Weinheim 2005.
• - Miller J. C., Serrato R., Represas- Cardenas J. M., Kundahl, G., “The Handbook of
• Nanotechnology”, John Wiley & Sons, Inc., Hoboken, New Jersy 2004.
• - Liveri, V. T., “Controlled Synthesis of Nanoparticles in Microheterogeneous Systems”,
• Springer Science & Business Media, Inc., New York 2006.
• - Bharat Bushan “Handbook of Nanotechnology” third edition, ISBN: 978-3-642-02524-2,
• (2010).
• - Dresselhaus M.S., Lin Y.-M., Rabin O., Jorio A., Souza Filho A.G., Pimenta M.A., Saito
• R., Samsonidze G.G., Dresselhaus G. “Nanowires and nanotubes”, Mater. Sci. Eng. C 23,
• –140 2003.
• - Huber C.A., Huber T.E., Sadoqi M., Lubin J.A., Manalis S., Prater C.B. “Nanowire array
• composites”, Science 263, 800–802 1994.
• - Braun E., Eichen Y., Sivan U., Ben-Yoseph G. “DNAtemplated assembly and electrode
• attachment of a conducting silver wire”, Nature 391, 775–778, 1998.
• - Zheng M.J., Zhang L.D., Li G.H., Shen W.Z. “Fabrication and optical properties of largescale
• uniform zinc oxide nanowire arrays by one-step electrochemical deposition technique”,
• Chem. Phys. Lett. 363, 123–128, 2002.
• - Mao Y., Wong S.S. “General, room-temperature method for the synthesis of isolated as
• well as arrays of single-crystalline ABO4-type nanorods”, J. Am. Chem. Soc. 126, 15245–
• , 2004.
• - Zhang X.Y., Zhang L.D., Lei Y., Zhao L.X., Mao Y.Q. “Fabrication and characterization
• of highly ordered Au nanowire arrays”, J. Mater. Chem. 11, 1732–1734, 2001.
• - Cui Y., Lauhon L.J., Gudiksen M.S., Wang J., Lieber C.M. “Diameter-controlled synthesis
• of single crystal silicon nanowires”, Appl. Phys. Lett. 78, 2214–2216, 2001.
• - Gates B., Yin Y., Xia Y. “A solution-phase approach to the synthesis of uniform nanowires
• of crystalline selenium with lateral dimensions in the range of 10-30 nm”, J. Am. Chem. Soc.
• , 12582–12583, 2000.
• - Mayers B., Gates B., Yin Y., Xia Y. “Large-scale synthesis of monodisperse nanorods of
• Se-Te alloys through a homogeneous nucleation and solution growth process”, Adv. Mater.
• , 1380–1384, 2001.
• - Gates B., Wu Y., Yin Y., Yang P., Xia Y. “Singlecrystalline nanowires of Ag2Se can be
• synthesized by templating against nanowires of trigonal Se”, J. Am. Chem. Soc. 123, 11500–
• , 2001.
• - Gates B., Mayers B., Wu Y., Sun Y., Cattle B., Yang P., Xia Y. “Synthesis and
• characterization of crystalline Ag2Se nanowires through a template-engaged reaction at room
• temperature”, Adv. Funct. Mater. 12, 679–686, 2002.
• - Yu H., Gibbons P.C., Buhro W.E. “Bismuth, tellurium and bismuth telluride nanowires”,
• J. Mater. Chem. 14, 595–602, 2004.32- Peng X., Wickham J., Alivisatos A.P.
• - Peng X., Wickham J., Alivisatos A.P. “Kinetics of II–VI, III–V colloidal semiconductor
• nanocrystal growth: Focusing’ of size distributions”, J. Am. Chem. Soc. 120, 5343–5344,
• -
• - Wagner R.S., Ellis W.C. “Vapor-liquid-solid mechanism of single crystal growth”, Appl.
• Phys. Lett. 4, 89–90, 1964.
• - Wu Y., Yang P. “Direct observation of vapor-liquidsolid nanowire growth”, J. Am. Chem.
• Soc. 123, 3165– 3166. 2001.
• - Wissner-Gross, A. D. "Dielectrophoretic reconfiguration of nanowire
• interconnects", Nanotechnology 17, 4986–4990, 2006.
• - Vizcaino, J. L. P., Nunez, C. G. A. "Fast, effective manipulation of nanowires for electronic
• devices". SPIE newsroom, doi:10.1117/2.1201312.005260. edit 2013.
• - Engel, Yoni; Elnathan, R.; Pevzner, A.;, Davidi G.; Flaxer E.; Patolsky F.; "Supersensitive
• Detection of Explosives by Silicon Nanowire Arrays", Angewandte Chemie international
• edition 49 (38): 6830–6835. doi:10.1002/anie.201000847, 2010.
• - Elnathan R., Kwiat M., Pevzner A., Engel Y., Burstein L., Khatchtourints A. Lichtenstein
• A., Kantaev R., Patolsky F., "Biorecognition Layer Engineering: Overcoming Screening
• Limitations of Nanowire-Based FET Devices". Nano Letters 12 (10): 5245–5254, doi:
• 1021/nl302434w, 2012.
• - Fan Z., Ruebusch D. J., Rathore A. A., Kapadia R., Ergen O., Leu P. W., Javey A.,
• “Challenges and prospects of nanopillar based solar cells”, Nano Res. 2 829–43, 2009.
• - Kayes B. M., Atwater H. A., Lewis N. S., “Comparison of the device physics principles of
• planar and radial p–n junction nanorod solar cells”, J. Appl. Phys. 97 114302, 2005.
• - Garnett E., Yang P., “Light trapping in silicon nanowire solar cells” Nano Lett. 10 1082–
• , 2010.
• - Kelzenberg M. D., Boettcher S. W., Petykiewicz J. A., Turner-Evans D. B., Putnam M. C.,
• Warren E. L., Spurgeon J. M., Briggs R. M., Lewis N. S., Atwater H. A., “Enhanced absorption
• and carrier collection in Si wire arrays for photovoltaic applications”, Nat. Mater. 9 239–44
• -
• -Turan R., Unalan H. E., Ozdemir B., Kulakci M., “Nano teknoloji güneş enerjisi
• dönüşümünde yeni ufuklar açıyor” Bilim ve Teknik, 62-65, Haziran 2011
• - Ozdemir B., Kulakci M., Turan R., Unalan H. E., “Effect of electroless etching parameters
• on the growth and reflection properties of silicon nanowires”, Nanotechnology, V 22, 7pp
• , 2011. doi:10.1088/0957-4484/22/15/155606 45-Noha Elhalawany, Yulia Maxi
• -Noha Elhalawany, Yulia Maximenko, S.-Tung Yau and Munir H. Nayfeh, Soluble silicon
• nanoparticles-polyaniline capsules for bio sensing and imaging, J. Materials Research 28,
• , 2013.
• -Kevin Mantey, Munir H. Nayfeh, Bahjat Al-Hreish, Jack Boparai, Ashok Kumar, Larry D.
• Stephenson, Andrew J Nelson, Salman A. Alrokayan and Khalid M. Abu-Salah, Silicon
• nanoparticle-functionalized fiberglass pads for sampling, J. Appl. Phys. 109, 064321, 2011.
• -Qiang Liu, Munir H. Nayfeh, Siu-Tung Yau, A silicon nanoparticle-based polymeric nanocomposite
• material for glucose sensing, J.Electro analytical Chemistry 657 172–175, 2011.
• -Kevin Mantey, Munir H. Nayfeh, Bahjat Al-Hreish, Jack Boparai, Ashok Kumar, Larry D.
• Stephenson, Andrew J Nelson, Salman A. Alrokayan and Khalid M. Abu-Salah, Silicon
• nanoparticle-functionalized fiberglass pads for sampling, J. Appl. Phys. 109, 064321, 2011.
• - Di Wei , Pritesh Hiralal, Haolan Wang , Husnu Emrah Unalan , Markku Rouvala , Ioannis
• Alexandrou , Piers Andrew , Tapani Ryhänen , Gehan A.J. Amaratunga “Hierarchically
• structured nanocarbon electrodes for flexible solid lithium batteries” Nano Energy 2 , 1054-
• , 2013
• - B. Abel, S. Coskun, M. Mohammed, R. Williams, H. E. Unalan, K. Aslan, “MetalEnhanced
• Fluorescence from Silver Nanowires with High Aspect Ratio on Glass Slides for
• Biosensing Applications”, J. Phys. Chem. C 119, 675, 2015