Effect of Silane Addition on Chitosan-Fly Ash/CTAB as Electrolyte Membran

Diana Isnaeni; Ella Kusumastuti; Triastuti Sulistyaningsih

doi:10.15294/ijcs.v6i2.12253

Direktur Jenderal Listrik dan Pemanfaatan Energi. 2006. Kebijakan Pemerintah dalam Kebijakan Bioenergi. Seminar dan Pameran Salman Nature Expo II. Bandung.
Handayani, E. 2009. Sintesis Membran Nanokomposit Berbasis Nanopartikel Biosilika dari Sekam Padi dan Kitosan Sebagai Matriks Biopolimer. Tesis. Bogor: Institut Pertanian Bogor.
Handayani, S. & E.L. Dewi. 2007. Pengaruh Suhu Operasi Terhadap Karakteristik Membran Elektrolit Polieter Eter Keton Tersulfonasi. Jurnal Sains Materi Indonesia, Hal: 43-47.
Im, M. 2011. Pembuatan dan Karakterisasi Komposit Membran PEEK Silika/Clay untuk Aplikasi Direct Metanol Fuel Cell (DMFC). Tesis. Semarang : Program Pascasarjana Universitas Diponegoro.

Ismail, H., S. Suhelmy, & M.R. Edyham. 2002. Effect of Silane Coupling Agent on Curing Characteristics and Mechanical Properties of Bamboo Fiber Filled Natural Rubber Composite. Europen Polymer Journal, 38(1): 39-47.
Kim, S.J., S.G. Seo, & S.C. Jung. 2010. Preparation of High Purity Nano Silica Particles from Blast-Furnace Slag. Korean Journal Chemistry Engineering, 27(6), 1901-1905.

Lestari, P. 2015. Modifikasi Permukaan Abu Layang dan Aplikasinya dalam Sintesis Polymer Electrolyte Membrane Kitosan-Abu Layang. Skripsi. Semarang: Jurusan Kimia Universitas Negeri Semarang.
Lin, H., Z. Chengji, M. Wenjia, K. Shao, L. Hongtao, Z. Yang, & N. Hui, â€œNovel hybrid polymer electrolyte membrans prepared by a silane-cross-linking technique for direct metanol fuel cells,â€ Journal Power Sources, Vol. 195: 762-768.

Olad, A. 2011. â€œPolymer/Clay Nanocomposites, Advances in Diverse Industrial Applications of Nanocompositesâ€. Intech Open Science ISBN, 9: 978-953.
Park, S.J., B.J. Kim, D. Seo, K.Y. Rhee, & Y.Y. Lyu. 2009. Effect of A Silane Treatment On the Mechanical Interfacial Properties of Montmorillonite/Epoxy Nanocomposite. Journal Material Science and Engineering 526(1): 74-78.

Salarizadeh, P., M. Javanbakht, S. Pourmahdian, A. Bagheri, H. Beydaghi, & M. Enhesari. 2016. Surface Modification of FeTiO5 Nanoparticles by Silane Coupling Agent: Synthesis and Application in Proton Exchange Composite Membrane. Journal of Colloid and Interface Sciemce, 472(1): 135-144.

Singh, L. P., S. K. Bhattacharyya, G. Mishra, & S. Ahalawat. 2011. Functional Role of Cationic Surfactant to Control the Nano Size of Silica Powder. Appl Nanosci, 1(1):117â€“122.

Wang, Y., Z. Jiang, H. Li, & D. Yang. 2010. Chitosan Membrans Filled by GPTMS-Modified Zeolite Beta Particles with Low Metanol Permeability for DMFC. Chemical Engineering and Processing, 49(1):278-285.

Wardani, R.K. 2015. Pengaruh Penambahan Surfaktan Kationik Pada Filler Terhadap Sifat dan Kinerja Membran Komposit Kitosan/Montmorilonit Termodifikasi Silan Untuk Aplikasi DMFC. Tesis. Surabaya: Institut Teknologi Sepuluh November.

Zou, H., S. Wu & J. Shen. 2008. Polymer/Silica Nanocomposite: Preparation, Characterization, Properties, and Aplication. Journal of Chemistry, 108(1): 3893-3957.

Abstract viewed - 302 times
PDF downloaded - 435 times

Affiliations

Diana Isnaeni
Affiliation not stated

Ella Kusumastuti
Affiliation not stated

Triastuti Sulistyaningsih
Affiliation not stated

How to Cite

Isnaeni, D., Kusumastuti, E., & Sulistyaningsih, T. (2017). Effect of Silane Addition on Chitosan-Fly Ash/CTAB as Electrolyte Membran. Indonesian Journal of Chemical Science, 6(2), 125-132. https://doi.org/10.15294/ijcs.v6i2.12253

Pemanfaatan Serat Daun Nanas Dalam Sintesis Geopolimer Berbasis Abu Layang Batubara

Aisyah Khoirotun Hisan ,
Ella Kusumastuti ,
Widhi Mahatmanti

Vol 6 No 2 (2017)

DOI 10.15294/ijcs.v6i2.12272

Submitted: Sep 1, 2016

Published: Aug 19, 2017

Abstract

Sintesis geopolimer dengan penambahan serat daun nanas telah dilakukan. Sintesis dilakukan dengan mencampurkan abu layang, NaOH, dan Na₂SiO₃ pada rasio SiO₂/Al₂O₃ 5,29 mol, kemudian ditambahkan serat daun nanas dengan variasi 0-2,5% (b/b). Penambahan serat optimum terjadi pada 1,5% (b/b) dengan kuat tekan 41,91 MPa dan kuat tarik belah 16,28 MPa. Sampel uji geopolimer dengan penambahan serat 1,5% memiliki fasa amorf yang relatif lebih besar jika dibandingkan dengan sampel uji 0 dan 2,5% serat. Analisis gugus fungsi geopolimer dengan FT-IR (Fourier Transform Infrared) menunjukkan adanya gugus CH pada 2924,09 cm^-1. Analisis morfologi menggunakan SEM (Scanning Electron Microscopy) menunjukkan bahwa morfologi terlihat lebih homogen dan terdapat partikel serat yang berada di antara matriks geopolimer.

Geopolymer synthesis with the addition of pineapple leaf fibers have been done. Synthesis is done by mixing fly ash, NaOH, and Na2SiO3 at a ratio of SiO₂/Al₂O₃ 5.29 mol, then add pineapple leaf fibers with variations from 0 to 2.5% (w/w). The addition of optimum fiber occurred in 1.5% (w/w) with a compressive strength of 41.91 MPa and 16.28 MPa tensile strength sides. Geopolymer test samples with addition of 1.5% fibers have an amorphous phase is relatively large when compared to the test sample 0 and 2.5% fiber. Chemical bonds analysis of geopolymer by FT-IR (Fourier Transform Infrared) showed that bond CH at 2924.09 cm^-1. Morphology analysis using SEM (Scanning Electron Microscopy) showed that the morphology looks more homogeneous and there is a fiber particles that are among the geopolymer matrix.

Affiliations

How to Cite

Download Citation

Most read articles by the same author(s)

Pemanfaatan Serat Daun Nanas Dalam Sintesis Geopolimer Berbasis Abu Layang Batubara

Abstract