Telah dilakukan sintesis dan karakterisasi membran ZSM-5 dengan penyangga kasa jenis 304 ukuran 200 dan 400 mesh dan jenis kasa AISI 316 ukuran 180 mesh. Tujuan penelitian ini adalah mensintesis membran ZSM-5 dengan penyangga kasa jenis 304 ukuran 200 dan 400 mesh dan jenis kasa AISI 316 ukuran 180 mesh dan mengkarakterisasi membran ZSM-5 hasil sintesis. Sintesis membran dilakukan dengan cara melapiskan prekursor ZSM-5 (coating) pada penyangga kasa yang telah diberi perlakuan dan dipanaskan pada suhu 90 °C selama 4 hari. Selanjutnya, membran yang dihasilkan dikarakterisasi engan metoda X-ray diffraction (XRD), scanning electron microscope-energy dispersive spectroscopy (SEM-EDS) dan Fourier-transform infrared (FTIR). Hasil citra SEM-EDS menunjukkan bahwa ukuran membran ZSM-5 yang semakin besar, menghasilkan jumlah lubang atau pori semakin banyak dengan luasan pori yang semakin kecil. Pola difraksi XRD menunjukkan bahwa membran yang dihasilkan mempunyai intensitas tertinggi pada 2 8º dan 23º yang merupakan karakteristik dari ZSM-5. Hasil spektra FTIR menunjukkan adanya serapan pada bilangan gelombang 450 cm^-1yang merupakan ciri khas membran ZSM-5.

Characterization of ZSM-5 Membranes Synthesized by Variation of Support Types and Sizes. Synthesis and characterization of ZSM-5 membrane were carried out with 304 type 200 and 400 mesh gauze supports and 180 mesh AISI 316 gauze types. The purpose of this study was to synthesize ZSM-5 membrane with 304 type 200 and 400 mesh gauze support and AISI 316 type 180 mesh size 180 mesh and characterize the synthesized ZSM-5 membrane. Membrane synthesis was carried out by coating the pre-treated gauze support with the ZSM-5 precursor and was heated at 90 °C for 4 days. Furthermore, the resulting membrane was characterized by X-ray diffraction (XRD), scanning electron microscope-energy dispersive spectroscopy (SEM-EDS) dan Fourier-transform infrared (FTIR). The SEM-EDX analysis shows that the increasing of ZSM-5 membrane size allowed pores number to increase with smaller pore surface area. The X-ray Diffraction pattern (XRD) shows that the resulting membrane has the highest intensity at 2  of 8º and 23º as the characteristics of ZSM-5. The FTIR spectra results show absorption at wavenumbers 450 cm^-1 which is a characteristic of ZSM-5 membranes.

Al-Oweini, R. and El-Rassy, H., 2009. Synthesis and Characterization by FTIR Spectroscopy of Silica Aerogels Prepared Using Several Si(OR)4 and R′′Si(OR′)3 Precursors. Journal Molecular Structure 919(1), 140-145. Doi: 10.1016/j.molstruc.2008.08.025

Cejka, J. H., and Van Bekkum, H., 2005. Zeolite and Ordered Mesoporous Materials : Progress and Prospect Czech Republic. The 1st FEZA School on Zeolites, Pague Studies in Surface Science and Catalysis, volume 157. Gulf Professional Publishing, Czech Republic.

Gao, Y., Chen, M., Zhang, T., and Zhen, G. X., 2011. A Novel Method for The Growth of ZSM-5 Zeolite Membrane on The Surface Stainless Steel. Journal of Material Letter 65(17-18), 2789-2792. Doi: 10.1016/j.matlet.2011.05.110

Holmbergh, B., 2008. Stainless Steels: Their properties and suitability to welding. Avesta Polarit, Sweden.

Kong, C., Lu, J., Yang, J., and Wang, J., 2006. Preparation of Silicalite-1 Membranes on Stainless Steel Supports by a Two-Stage Varying-Temperature in Situ Synthesis. Journal of Membrane Science 285(1-2), 258–264. Doi: 10.1016/j.memsci.2006.08.027

Lestari, D. Y., 2010. Kajian Modifikasi dan Karakterisasi Zeolit Alam dari Berbagai Negara. Prosiding Seminar Nasional Kimia dan Pendidikan Kimia, 30 Oktober 2010, Yogyakarta, pp. 1-6.

Mukaromah, A. H., Kadja, G. T. M., Mukti, R. R., Pratama, I. R., Zulfikar, M. A., and Buchari, B., 2016. The Surface-to-volume Ratio of the Synthesis Reactor Vessel Governing the Low Temperature Crystallization of ZSM-5. Journal of Mathematical and Fundamental Sciences 48(3), 241-251. Doi: 10.5614%2Fj.math.fund.sci.2016.48.3.5

Mukaromah, A. H., 2017. Sintesis Membran Zeolit ZSM-5 Secara Elektrodeposisi dan coating pada Suhu Rendah untuk Menurunkan Kadar Gas Karbon Monoksida, Disertasi Program Doktor. Institut Teknologi Bandung.

Murniati, A., Buchari, Gandasasmita, S., and Nurachman, Z., 2012. Sintesis dan Karakterisasi Polipirol pada Elektroda Kerja Kasa Baja dengan Metode Voltametri Siklik. Jurnal Sains Materi Indonesia 13(3), 210-215.

Shan, W., Zhang, Y., Yang, W., Ke, C., Gao, Z., Ye, Y., and Tang, Y., 2004. Electrophoretic Deposition of Nanosizes in Non-aqueous Medium and Its Application in Fabricating Thin Zeolites Membranes. Journal of Microporous and Mesoporous Materials 69, 35-42. Doi: 10.1016/j.micromeso.2004.01.003

Shukla, D. B., and Pandya, V. P., 1989. Estimation of Crystalline Phase in ZSM-5 Zeolites by Infrared Spectroscopy. Journal of Chemical Technology & Biotechnology 44(2), 147-154. Doi: 10.1002/jctb.280440206

Thommes, M., Kaneko, K., Neimark, A. V., Olivier, J. P., Rodriguez-Reinoso, F., Rouquerol, J., and Sing, K. S. W., 2015. Physisorption of Gases, with Special Reference to the Evaluation of Surface Area and Pore Size Distribution (IUPAC Technical Report). Journal of Pure Applied Chemistry 87, 1051-1069. Doi: 10.1515/pac-2014-1117

Utami, R. A., Mukaromah, A. H., and Yusrin, 2017. Sintesis Membran Zeolit ZSM-5 Secara Coating Pada Suhu 90 °C Berdasarkan Variasi Jenis dan Ukuran Kasa dalam Menurunkan Kadar Gas CO. Prosiding Seminar Nasional & Internasional. Oktober 2017, Universitas Muhammadiyah Semarang, Semarang, Indonesia.