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Synthesis of SiO2 nanopowders containing quartz and cristobalite phases from silica sands

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this study, extraction and synthesis of SiO2 nanoparticles from silica sands have been conducted by means of two different methods, i.e. dry method (method 1) and hydrothermal process (method 2). The basic difference between the two methods is in the extraction step. The two methods were compared in terms of being more efficient, economical, and superior in obtaining SiO2 nanoparticles. The SiO2 nanoparticles were characterized in terms of phase purity, crystallinity, Si–O functional bonding as well as particles size and morphology. The most interesting fact in this study was the formation of both quartz and cristobalite phases within all prepared SiO2 nanoparticles.
Wydawca
Rocznik
Strony
47--55
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
autor
  • Department of Physics, Faculty of Mathematics and Sciences, Institut Teknologi Sepuluh Nopember (ITS), Kampus ITS Sukolilo, Surabaya 60111, Indonesia
  • Department of Physics, Faculty of Mathematics and Sciences, Institut Teknologi Sepuluh Nopember (ITS), Kampus ITS Sukolilo, Surabaya 60111, Indonesia
autor
  • 1Department of Physics, Faculty of Mathematics and Sciences, Institut Teknologi Sepuluh Nopember (ITS), Kampus ITS Sukolilo, Surabaya 60111, Indonesia
autor
  • Department of Physics, Faculty of Mathematics and Sciences, Institut Teknologi Sepuluh Nopember (ITS), Kampus ITS Sukolilo, Surabaya 60111, Indonesia
  • Department of Physics, Universitas Negeri Surabaya (UNESA), Kampus UNESA Ketintang, Surabaya 60231, Indonesia
Bibliografia
  • [1] HONG Z., LIU A., CHEN L., CHEN X., JING X., J. Non-Cryst. Solids, 355 (2009), 368.
  • [2] JANG H.D., CHANG H.K., YOON H.S., CHO K., PARK J.H., OH S.Y., Colloid. Surface. A, 313 – 314 (2008), 121.
  • [3] KALAPATHY U., PROCTOR A., SHULTZ J., Bioresource Technol., 85 (2002), 285.
  • [4] AFFANDI S., SETYAWAN H., WINARDI S., PURWANTO A., BALGIS R., Adv. Powder Technol., 20 (2009), 468
  • [5] WALKOWIAK M., ZALEWSKA A., JESIONOWSKI T., POKORA M., J. Power Sources, 173 (2007), 721.
  • [6] OSI´N SKA M., WALKOWIAK M., ZALEWSKA A., JESIONOWSKI T., J. Membrane Sci., 326 (2009), 582.
  • [7] JESIONOWSKI T., BULA K., JANISZEWSKI J., JURGA J., Compos. Interface., 10 (2003), 225.
  • [8] DZIADAS M., NOWACKA M., JESIONOWSKI T., JELE´N H.H., Anal. Chim. Acta, 699 (2011), 66.
  • [9] NITTAYA T., NUNTIYA A., Chiang Mai J. Sci., 35 (1) (2008), 206.
  • [10] AHMAD T., MAMAT O., AHMAD R., J. Nanoparticles, 2013 (2013), 1.
  • [11] TRABELSI W., BENZINA M., BOUAZIZ S., Phys. Procedia, 2 (2009), 1461.
  • [12] MORI H., J. Ceram. Soc. Jpn., 111 (2003), 376.
  • [13] MUNASIR Z., SULTON A., TRIWIKANTORO T., ZAINURI M., DARMINTO D., AIP Conf. Proc., 1555 (2013), 28.
  • [14] YU K., GUO Y., DING X., ZHAO J., WANG Z., Mater. Lett., 59 (2005), 4013.
  • [15] JESIONOWSKI T., J. Mater. Process. Tech., 203 (2008), 121.
  • [16] WASEEM M., MUSTAFA S., NAEEM A., SHAH K.H., SHAH I., IHSAN-UL-HAQUE., J. Park. Mater. Soc., 3 (1) (2009), 19.
  • [17] RAHMAN I.A., VEJAYAKUMARAN P., SIPAUT C.S., ISMAIL J., CHEE C.K., Ceram. Int., 34 (2008), 2059.
  • [18] KRYSZTAFKIEWICZ A., RAGER B., JESIONOWSKI T., J. Mater. Sci., 32 (1997), 1333.
  • [19] SCHLOMACH J., KIND M., J. Colloid Interf. Sci., 277 (2004), 316.
  • [20] SCHAER E., RAVETTI R., PLASARI E., Chem. Eng. Process., 40 (2001), 277.
  • [21] TABATABAEI S., SHUKOHFAR A., AGHABABAZADEH R., MIRHABIBI A., J. Phys.-Conf. Ser., 26 (2006), 371.
  • [22] HOSOKAWA M., NOGI K., NAITO M., YOKOYAMA T., Nanoparticle Technology Handbook, Elsevier Science, Oxford, 2007.
  • [23] DITTRICH H., BIENIOK A., Measurement Methods. Structural Properties: X-Ray and Neutron Diffraction, in Garche J. (Ed.), Encyclopedia of Electrochemical Power Sources, Elsevier, Amsterdam, 2009, p. 718.
  • [24] BECKHOFF B., KANNGIESSER B., LANGHOFF N., WEDELL R., WOLFF H., Handbook of Practical X-Ray Fluorescence Analysis, Springer-Verlag, Berlin – Heidelberg, 2006.
  • [25] KLAPISZEWSKI Ł., ZDARTA J., SZATKOWSKI T., WYSOKOWSKI M., NOWACKA M., SZWARC-RZEPKA K., BARTCZAK P., SIWI´N SKA-STEFA´N SKA K., EHRLICH H., JESIONOWSKI T., Cent. Eur. J. Chem., 12 (2014), 719.
  • [26] UI S.W., LIM S.J., LEE S.H., CHI S.C., J. Ceram. Process. Res., 10 (4) (2009), 553.
  • [27] MATSUMOTO A., TSUTSUMI K., SCHUMACHER K., UNGER K. K., Langmuir, 18 (2002), 4014.
  • [28] SNYDER R.L., Powder Diffr., 7 (1992), 186.
  • [29] WASEDA Y., MATSUBARA E., SHINODA K., X-Ray Diffraction Crystallography, Springer-Verlag, Heidelberg – Dordrecht – London – New York, 2011.
  • [30] SHADE J.O., X-Ray Characterisation of Nanostructured Material, S3 Thesis, Department of Chemistry, Technical University of Denmark, 2007.
  • [31] JAL P.K., SUDARSHAN M., SAHA A., PATEL S., MISHRA B.K., Colloid. Surface A., 240 (2004), 173.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-135d42cc-5124-4bec-9bf8-012971fa29d4
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