Synthesis and Characterization of Bagasse (Saccharumofficinarum L.) Silica Gel Modified Diphenylcarbazone

Rismawaty Sikanna, Dwi Nur Assyifah Rajmah, Kurnia Ramadani, Musafira Musafira, Arfiani Nur, Amalyah Febryanti

Abstract


Abstract: Bagasse is a solid waste from the sugar cane milling process in the sugar industry. The waste can be used as an ingredient in making silica gel which functions as an adsorbent. This can be done by changing its chemical structure composition to increase its role and function. This study aims to determine the characteristics of silica gel synthesized from bagasse (Saccharumofficinarum L.) and modified using diphenylcarbazone as much as 0.24 g with sol-gel technique. The characterization results obtained from Fourier transform infrared (FTIR) analysis of diphenylcarbazone modified silica gel, namely the absorption of Si-OH, Si-O-Si groups supported by the appearance of C꞊O, C꞊N, NH, and N꞊N groups. Characterization using x-ray diffraction (XRD) showed a change in amorphous silica to crystals, with the results obtained showing a crystal size of 41.468 nm.

Abstrak: Ampas tebu merupakan limbah padat yang berasal dari proses penggilingan tebu pada produksi gula. Limbah tersebut dapat dimanfaatkan sebagai bahan pembuatan silika gel yang berfungsi sebagai adsorben. Hal tersebut dapat dilakukan dengan mengubah komposisi struktur kimianya agar dapat meningkatkan peran dan fungsinya. Penelitian ini bertujuan untuk mengetahui karakteristik silika gel yang disintesis dari ampas tebu (Saccharumofficinarum L.) dan dimodifikasi menggunakan difenilkarbazon sebanyak 0,24 gr dengan teknik sol-gel. Diperoleh hasil karakterisasi dari analisis fourier transform infrared (FTIR) terhadap silika gel termodifikasi difenilkarbazon menunjukkan adanya serapan gugus Si-OH, Si-O-Si yang didukung dengan pembentukan gugus C꞊O, C꞊N, N-H, dan N꞊N. Karakterisasi menggunakan difraksi sinar-x (XRD) menunjukkan perubahan silika amorf menjadi kristal dengan hasil yang diperoleh memperlihatkan ukuran kristal sebesar 41,468 nm.


Keywords


Bagasse; Silica Gel; Diphenylcarbazone.

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References


Alves, R. ., Reis, T. V. ., Rovani, S., & Fungaro, D. . (2017). Green Synthesis and Characterization of Biosilica Produced from Sugarcane Waste Ash. Hindawi Journal of Chemistry, 2017.

Amri, S., Pranjoto, M., & Si, M. (2017). Preparasi dan Karakterisasi Komposit ZnO-Zeolit untuk Fotodegradasi Zat Warna Congo Red. Jurnal Kimia Dasar, 6(2), 29–36.

Apriawan, D. ., Irham, & Mulyo, J. . (2015). Analisis Produksi Tebu Dan Gula Di Pt. Perkebunan Nusantara Vii (Persero). Agro Ekonomi, 26(2).

Astuti, M. D., Nurmasari, R., & Mujiyanti, D. R. (2012). Immobilization of Silica Gel onto 1-8-dihydroxyanthraquinone Through Sol-Gel Process. Sains Dan Terapan Kimia, 25–34.

Banaei, A., Samadi, S., Karimi, S., Vojoudi, H., Pourbasheera, E., & Badiei, A. (2017). Synthesis of silica gel modified with 2,2′-(hexane-1,6-diylbis(oxy)) dibenzaldehyde as a new adsorbent for the removal of Reactive Yellow 84 and Reactive Blue 19 dyes from aqueous solutions: Equilibrium and thermodynamic studies. Powder Technology, 319, 60–70. https://doi.org/10.1016/j.powtec.2017.06.044

Buhani, & Suharso. (2010). Modifikasi silika dengan 3-aminopropiltrimetoksisilan melalui proses sol gel untuk adsorpsi ion Cd(II) dari larutan. J.Sains MIPA, 16(3), 177–183.

Carrera-Figueiras, C Pérez-Padilla, Yamile Estrella-Gutiérrez, Manuel Alejandro Uc-Cayetano, Erbin G. Avila-Ortega Juárez-Moreno, J. A., & Alejandro. (2019). Surface Science Engineering through Sol-Gel Process. Applied Surface Science. https://doi.org/10.5772/intechopen.83676

Channoy, C., Maneewan, S., Punlek, C., & Chirarattananon, S. (2018). Preparation and Characterization of Silica Gel from Baggase Ash. Advance Material Research, 1145, 44–48.

Chindaprasirt, P., & Rattanasak, U. (2020). Eco-production of silica from sugarcane bagasse ash for use as a photochromic pigment filler. Scientific Reports, 10(1), 1–8. https://doi.org/10.1038/s41598-020-66885-y

Huang, W., Xu, J., Tang, B., Wang, L. H., Tan, X., & Aihua. (2018). Adsorption performance of hydrophobically modified silica gel for the vapors of n-hexane and water. Adsorption Science & Technology, 36, 3–4. https://doi.org/10.1177/0263617417728835

Iqbal, M., Elwina, & Yusrini, M. (2016). Pemanfaatan Limbah Ampas Tebu dalam Pembuatan Silika Gel. Jurnal Sains Dan Teknologi Reaksi, 14.

Kenneth, C. (2015). Review of Spectrometric Identification of Organic Compounds. J. Chem. Educ., 92(10), 1602–1603. https://doi.org/10.1021/acs.jchemed.5b00571

Mujiyanti, D. R., Nuryono, & Kunarti, E. S. (2010). Sintesis Dan Karakterisasi Silika Gel Dari Abu Sekam Padi Yang Diimobilisasi Dengan 3-(Trimetoksisilil)-1-Propantiol. Sains Dan Terapan Kimia, 4(2), 150–167. http://library1.nida.ac.th/termpaper6/sd/2554/19755.pdf

Mupa, M., Hungwe, C. B., Witzleben, S., Mahamadi, C., & Muchanyereyi, N. (2015). Extraction of silica gel from Sorghum bicolour (L.) Moench bagasse ash. African Journal of Pure and Applied Chemistry, 9(2), 12–17. https://doi.org/10.5897/ajpac2015.0603

Nopianingsih, N., Sudiarta, I., & Sulihingtyas, W. (2015). Sintesis Silika Gel Terimobilisasi Difenilkarbazon Dari Abu Sekam Padi Melalui Teknik Sol Gel. Jurnal Kimia, 9(2), 226–234.

Norsuraya, S., Fazlena, H., & Norhasyimia, R. (2016). Sugarcane Bagasse as a Renewable Source of Silica to Synthesize Santa Barbara Amorphous-15 (SBA-15). Procedia Engineering, 148(2016), 839 – 846.

Purwanto, A., Yusmaniar, Ferdiani, F., & Damayanti, R. (2017). Synthesis and adsorption of silica gel modified 3-aminopropyltriethoxysilane (APTS) from corn cobs against Cu(II) in water. International Conference on Chemistry, Chemical Process and Engineering (IC3PE). https://doi.org/10.1063/1.4978105

Rahman, N.A Widiyastuti, W., Sigit, D., Ajiza, M., & Sujana, W. (2017). The Effect of Various Acids on the Gelation Process to the Silica Gel Characteristic Using Organic Silica. International Conference on Chemistry and Material Science.

Serena, E. (2019). “Traditional” Sol-Gel Chemistry as a Powerful Tool for the Preparation of Supported Metal and Metal Oxide Catalysts. Materials, 12(668).

Sheth, K. (2017). Top Sugarcane Producing Countries. worldatlas.com

Sholeh, M., Rochmadi, R., Sulistyo, H., & Budhijanto, B. (2020). Synthesis of precipitated silica from bagasse ash as reinforcing filler in rubber. Mater. Sci. Eng.

Silverstein, R. M., Webster, F. X., & Kiemle, D. J. (2005). Silverstein - Spectrometric Identification of Organic Compounds 7th ed (7th ed.). John Wiley & Sons.

Sjamsiah, Ramadani, K., & Hermawan. (2017). Sintesis Membran Silika Kitosan dari Abu Ampas Tebu (Bagasse). Alkimia, 5(1).

Sudiarta, I., Diantariani, N., & Suarya, P. (2013). Modifikasi Silika Gel Dari Abu Sekam Padi Dengan Ligan Difenilkarbazon. Jurnal Kimia, 7(1), 57–63.




DOI: http://dx.doi.org/10.22373/ekw.v7i1.9239

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Copyright (c) 2021 Rismawaty Sikanna, Dwi Nur Assyifah Rajmah, Kurnia Ramadani, Musafira, Arfiani Nur, Amalyah Febryanti

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P-ISSN : 2460-8912
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ELKAWNIE

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Elkawnie: Journal of Islamic Science and Technology in 2022. Published by Faculty of Science and Technology in cooperation with Center for Research and Community Service (LP2M), UIN Ar-Raniry Banda Aceh, Aceh, Indonesia.

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