Pengaruh jumlah serat gelas sebagai material pedukung dalam sintesis Zeolite-A telah diamati pada penelitian ini. Sintesis dilakukan dengan teknik hidrotermal pada suhu 100^oC.  Variasi yang dilakukan pada penelitian ini adalah penambahan serat gelas sebanyak 0,01; 0,024; 0,1 dan 1 gram dalam tiap 100 gram komposit. Jumlah serat gelas sebanyak 0,024 gram menunjukkan hasil terbaik untuk sintesis zeolite-A bermaterial pendukung serat gelas. Sebagai data pendukung dilakukan karakterisasi menggunakan instrumen FT-IR (Fourier Transform), XRD (X-Ray Diffraction) dan SEM (Scanning Electron Microscopy).

Sun, M., Hunt, H.K., Lew, C.M., Cai, R., Liu, Y., Yan, Y., (2012), A Dynamic Organic Structuring-Directing Agent for Pure Silica Zeolite AST and LTA Synthesis, Chinese Journal of Catalysis, 33, 1.

Martinez, J.G., Amoros, D.C., Soluno, A.L., Lin, Y.S., (2001), Synthesis and Characterisation of MFI-Type Zeolites Supported on Carbon Material. Microporous and Mesoporous Materials, 42, pp. 255-268.

Liu, B.S., Tang, D.C., Au, C.T., (2005), Fabrication of Analcime Zeolite Fibers by Hydrothermal Synthesis, Microporous and Mesoporous Materials, 86, pp. 106-111.

Deng, Z., Kenneth, J., Balkus, Jr., (2002), Pulsed Laser Deposition of Zeolite NaX Thin Film On Silica Fiber, Microporous and Mesoporous Material, 56, pp. 47-53.

Tosheva, L. dan Valtchev, V., (2005). Silicate-1 Crystallization on Glass Fiber, Microporous and Mesoporous Materials, 81, pp. 11-18.

Mintova, S. dan Vattchev, V., (1996), Deposite of Zeolite A on Vegetal Fiber, Zeolites, 16, pp. 31-34.

Kamali, M., Vaezifar, S., Kolahduzan, H., Malekpour, A., Abdi, M.R., (2009), Synthesis of Nanozeolite A from Natural Clinoptilolite and Aluminum Sulfate : Optimization of the Method, Powder Technology, 189, pp. 52-56.

Widiastuti, N., Prasetyoko, D., (2009), Pembuatan Zeolit A dari Limbah Abu Dasar (Bottom Ash) Sebagai Penyerap Ammonia pada Tambak Udang dan Penyerap Logam Berat dari Limbah Industri Pelapisan Logam, Surabaya : Lembaga Penelitian dan Pengabdian kepada Masyarakat ITS.

Holilah, (2012), Sintesis dan Karakterisasi H-ZSM-5 Mesopori dan Makropori Serta Aktivasinya Pada Reaksi Glikol, Surabaya : KIMIA ITS.

Ojha, K., Pradhan, N. dan Samanta, A. N., (2004), Zeolite from Fly Ash: Synthesis and Characterization, Bull. Mater. Sci. Indian Academy of Sciences, 27, 6, pp. 555-564.

Xiaochun, X., Yun, B., Chunshan, S., Weishen, Y., Jie, L., Liwu, L., (2004), Microwave-assisted Hydrothermal Synthesis of Hydroxy-Sodalite Zeolite Membrane, Microporous and Mesoporous Materials, 75, pp. 173 – 181.

Cazetta, A.L., Vargas, A.M.M., Nogami, E.M., Kunita, M.H., Guilherme, M.R., Martins, A.C., Silva T.L., Moraes, J.C.G., (2011), NaOH Activated Carbon of High Surfice Area Produced From Coconut Shell : Kinetic and Equilibrium Studies From The Methylene Blue Adsorption, Chemical Enggineering Journal, 174, pp. 117-125.

Barrer, R.M., (1982), Hydrothermal Chemistry of Zeolite, London : Academic Press, pp. 360.

Liu, Y., Gao, Y., Zhu, Y., An, D., Wei, G., Wang, Z., Ma, Y., Wang, Z., (2011), A Sustainable Route of The Preparation of Activated Carbon and Silica From Rice Husk Ash, Journal of Hazardous Material, 186, pp. 1314-1319.

Mufrodi, Z., Sutrisno, B., Hidayat, A., (2010), Modifikasi Limbah Abu Layang Sebagai Material Baru Adsorben, Proseding Seminar Nasional Teknik Kimia, Kejuangan ’10.

Armaroli, T., Simon, L.J., Degne, M., Patarin, J., Busc, G., (2006), Effect of Crystal Sized and Si/Al Ratio on the Surface Properties of H-ZSM-5 Zeolites, Applied Catalysis A General, 306, pp. 78-84.

Mohammed, R.M., Ismail, Adel A., Kini, G., Ibrahim, I.A., Koopman, B., (2009), Synthesis of Highly Ordered Cubic Zeolite A and Its Ion-Exchange Behavior, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 348, pp. 87-92.

Rios, C.A., William, C.D., Fullen, M.A., (2009), Nucleation and Growth History of Zeolite LTA Synthesis From Kaolinite By Two Different Method, Applied Clay Science, 42, pp. 446-454.

Agustiana (2012), Sintesis Zeolit X Dari Abu Dasar Batubara PT IPMOMI PAITON Untuk Aplikasi Penyimpanan Hidrogen, Surabaya : KIMIA ITS.

Weiwei, J., Ming, L., Changfeng, Z., Jianfeng, Y., Lixiong, Z., (2011), Hollow Sodalite Spheres Synthesized in A First Closed The Open System From The Synthesis Gel Aged Under Ultra-high Pressures, Microporous and Mesoporous Materials, 143, pp. 189-195.