Modifikasi zeolit alam Klaten dengan surfaktan setiltrimetilammonium bromida (CTAB) dan N-Dodesil-N,N-dimetil-3-ammonio-1-propana sulfonat (DPS) sebagai adsorben sulfat (SO42-) dan ammonium (NH4+) telah berhasil dilakukan. Zeolit alam (ZA) diaktivasi terlebih dahulu dengan HCl 3 M dengan dipanaskan selama 30 menit menghasilkan zeolit alam teraktivasi (ZAA). Zeolit alam yang telah teraktivasi dimodifikasi dengan CTAB monolayer (ZAA-C) untuk membentuk heterosurfactant bilayer system dengan DPS sehingga terbentuk adsorben zeolit termodifikasi CTAB-DPS, ZAA-C-D. Kemudian dilakukan penentuan nilai kemampuan kapasitas tukar kation (KTK) dari ZA, ZAA, ZAA-C dan ZAA-C-D serta karakterisasi dengan X-Ray Difraction (XRD) dan spektroskopi Fourier Transform Infra Red (FTIR). Kajian adsorpsi senyawa ionik dioptimasi dengan parameter pH, waktu kontak, variasi adsorben serta variasi konsentrasi adsorbat. Penentuan konsentrasi SO42- dan NH4+ yang tidak teradsorp dianalisis menggunakan spektrofotometer UV-Vis. Hasil penelitian menunjukkan bahwa kapasitas adsorpsi ZAA-C-D terhadap NH4+ dan SO42- lebih tinggi dibandingkan dengan kapasitas adsorpsi dari varian adsorben lainnya. Aktivitas adsorpsi NH4+ optimal pada adsorben dengan urutan ZAA-C-D > ZA > ZAA > ZAA-C monolayer dan adsorpsi SO42- dengan ZAA-C-D > ZAA > ZA > ZAA-C. Adsorpsi NH4+ dan SO42- pada ZAA-C-D terjadi secara kemisorpsi dan mengikuti pola isoterm Freundlich. Kapasitas adsorpsi terhadap NH4+ sebesar 3,16 x 10-6 mol g-1 sedangkan terhadap SO42- sebesar 2,61 x 10-5 mol g-1.

Modification of natural zeolite from Klaten by cetyltrimethylammonium bromide (CTAB) and N-Dodecyl-N,N-dimethyl-3-ammonio-1-propane sulfonate (DPS) surfactants as adsorbent of SO42- and NH4+ has been performed. Activated natural zeolite was produced by heating natural zeolite in 3 M HCl for 30 minutes. It was then modified by adding CTAB monolayer (ZAA-C) and DPS to form heterosurfactant bilayer system with DPS forming CTAB-DPS modified zeolit (ZAA-C-D) adsorbent. The modified zeolite was then characterized by Infrared spectroscopy, X-Ray diffraction and the ability of its cation exchange capacity. The parameters of adsorption test of SO42- and NH4+ included pH, contact time, variation of adsorbent and variation of concentration of the adsorbate. Unadsorbed concentration of SO42- and NH4+ was analysed by UV-Visible spectrophotometer. The results showed that the adsorption capacity of ZAA-C-D for NH4+ and SO42- was higher than other variant of adsorben. To summarize, the adsorption activity of NH4+ was achieved in the order of ZAA-C-D > ZA > ZAA > ZAA-C monolayer and the adsorption of SO42- in the order of ZAA-C-D > ZAA > ZA > ZAA-C. The adsorption of ZAA-C-D on both adsorbate was occurred by following Freundlich isotherm adsorption. The adsorption capacity for NH4+ was 3,16 x 10-6 mol g-1 and 2,61 x 10-5 mol g-1 respectively.

Kata Kunci : zeolit, CTAB, DPS, modifikasi, adsorpsi