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Sintesis Bahan Hibrida Amino-Silika dari Abu Sekam Padi Melalui Proses Sol-Gel

1Chemistry Department, Faculty of Sciences and Mathematics, Diponegoro University, Indonesia

2Chemistry Department, Faculty of Mathematics and Natural Sciences, Gadjah Mada University, Indonesia

Published: 1 Apr 2005.
Open Access Copyright 2005 Jurnal Kimia Sains dan Aplikasi under http://creativecommons.org/licenses/by-sa/4.0/.

Citation Format:
Abstract
Silika dengan imobilisasi gugus amino dengan bahan dasar abu sekam padi telah dibuat melaluiproses sol-gel. Sebagai perbandingan, dibuat pula silika gel tanpa gugus organik.Larutan mendidih natriumsilikat (1,5 N) ditambahkan pada abu sekam padi, kemudian filtratnya dipisahkan sebagai larutan natriumsilikat. Selanjutnya , kedua filtrat digunakan untuk sintesis silika gel dengan dan tanpa gugus organik. 3-Aminopropiltrimetoksisilan (APTS) ditambahkan ke dalam larutan natrium silikat, dilanjutkan denganpenambahan asam klorida perlahan-lahan sampai pH 7 dan pH 3. Gel yang terbentuk diperam selama 18jam dengan temperatur 80oC, dicuci dengan air kemudian dikeringkan pada temperatur 80oC selama 9 jam.Silika gel dibuat dengan cara yang sama. Kedua produk dikarakterisasi dengan FTIR dan XRD, serta diujikemampuan adsorpsinya terhadap logam Ni(II). Hasil menunjukkan bahwa silika gel hasil mempunyai polayang sama dengan silika Kiesel Gel 60 dari Merck, baik spektra FTIR maupun defraktogram XRDnya,sedangkan bahan hibrida amino-silika mempunyai puncak-puncak serapan yang menunjukkan adanyagugus amin (-NH2) dan rantai alifatik (-CH2-) di samping kesamaan pola dengan silika standar. Dalam ujiadsorpsi, amino-silika mengadsorpsi Ni(II) lebih tinggi dibanding silika gel dengan kapasitas adsorpsimasing-masing 0, 106 mol/g adsorben dan 0,0088 mol/g adsorben.
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Keywords: abu sekam padi; hibrida amino-silika; silika gel; 3-aminopropil-trimetoksisilan

Article Metrics:

  1. Brinker, C.J., dan W.J. Scherer, 1990, Sol-Gel Science: The Physics and Chemistry of Sol-Gel Processing, Academic Press, san Diego
  2. Priyosulistyo, HRC., Sudarmoko, Bambang Supriyadi, Bambang Suhendro, dan P. Sumardi, 1999, Pemanfaatan Limbah Abu Sekam Padi Untuk Peningkatan Mutu Beton, Laporan Penelitian Hibah Bersaing VI/2, Lembaga Penelitian UGM
  3. Sriyanti, Narsito, Nuryono, 2001, Selektivitas 2-Merkaptobenzotiazol Terimpregnasi pada Zeolit Alam untuk Adsorpsi Kadmium (II) dalam Campuran Kadmium (II)-Besi (III), Proseding Seminar Nasional Kimia IX, Yogyakarta
  4. Oscik, J., 1982, Adsorption, Ellis Horwood Limited, Chichester
  5. Bhatia, R.B., and C.J. Brinker, 2000, Chem.Mater., 12, 2434 – 2441
  6. Scott, R.P.W., 1993, Silika Gel and Bonded Phases: Their Production, Properties and Use in LC, John Wiley & Sons, Toronto
  7. Sriyanti, Taslimah, Nuryono dan Narsito, 2004, Selektivitas Silika Gel Termodifikasi Gugus Tiol Untuk Adsorpsi Kadmium (II) dan Tembaga (II), Proceeding Seminar Nasional Hasil Penelitian MIPA 2004, FMIPA Undip, Semarang
  8. Kalapathy, U., A. Proctor and J. Shultz, 2000, A Simple Method For Production of Pure Silica From Rice Hull Ash, Bioresource Technology 73, 257-262
  9. Nuryono, 2004, Effect of NaOH Concentration On Destruction of rice Husk Ash With Wet Technique, Proceeding Seminar Nasional Hasil Penelitian MIPA 2004, FMIPA Undip, Semarang
  10. Iler, R.K., 1979, Silica Gels and Powder, dalam Iler, R.K. (Ed), The Chemistry of Silica, Wiley, New York
  11. Schubert, U., dan N. Husing, 2000, Synthesis of Inorganic Material, Willey-VCH Verlaq Gmbh, D-69469 Wernbeim, Federal Replublic of Germany
  12. Silverstein, R. M., G. C. Bassler and T. C. Morril, 1991, Spectrometric Identification of Organic Compound, 5th ed, John Wiley & Sons, Inc., New York
  13. Hamdan, H., 1992, Introduction to Zeolites: Synthesis, Characterization and Modification, Universiti Teknologi Malaysia, Kualalumpur
  14. Shriver, D.F., Atkins, P.W. dan Langford, C.H., 1990, Inorganic Chemistry, Oxford University Press, Oxford

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