Telah dilakukan sintesis silika termodifikasi gugus amonium kuaterner dan dipelajari aplikasinya untuk adsorpsi anion Cr(VI). Adsorben silika termodifikasi, disintesis dengan mereaksikan senyawa trimetil-(3-trimetoksisililpropil)amonium iodida pada larutan natrium silikat yang diekstraksi dari abu sekam padi, melalui metode sol-gel. Keberadaan gugus fungsi material diidentifikasi dengan spektrofotometer FTIR dan kristalinitas dengan XRD, sedangkan ion logam yang teradsorpsi ditentukkan dengan spektrofotometer UV-Vis. Persentase Cr(VI) teradsorpsi dipelajari sebagai fungsi pH, massa dan waktu kontak. Kinetika adsorpsi ditentukan dengan model kinetika Moore dan Pearson, Santosa, Lagergren, dan Ho. Sedangkan, mekanisme reaksi adsorpsi dipelajari dengan menggunakan variasi desorben dengan tingkat kebasaan yang berbeda. Hasil karakterisasi dengan spektrofotometer FTIR dan XRD menunjukkan bahwa silika termodifikasi amonium kuaterner berhasil disintesis. Kemudian adsorpsi Cr(VI) berlangsung efektif pada pH 3. Studi kinetika adsorpsi menunjukkan adsorpsi Cr(VI) mengikuti model orde 2 semu Ho dengan konstanta laju adsorpsi 0,069 (g.mg-1).min-1. Hasil evaluasi mekanisme menunjukkan bahwa adsorpsi melibatkan interaksi pertukaran ion, dengan hasil desorpsi maksimum sebesar 60,50% dicapai dengan desorben NaOH.

Synthesis of quaternary ammonium modified silica and its application for anion adsorption of Cr(VI) have been studied. Modified silica adsorbent, synthesized by reacting was trimetil-(3-trimetoksisililpropil) ammonium iodide with solution of sodium silicate that was extracted from rice husk, throught solgel method. The existence of functional groups was identified by FTIR spectrophotometry, and its crystallinity by XRD. Adsorbed metal ions were analyzed by UV-Vis spectrophotometer. Adsorption of Cr(VI) was carried out as function of pH, mass and contact time. Adsorption kinetic determined by Moore and Pearson, Santosa, Lagergren, and Ho models. While, adsorption reaction mechanism was studied using desorbent variations with different levels of alkalinity. FTIR and XRD characterization showed that quaternary ammonium modified silica was successfully synthesized. Then, the adsorption of Cr(VI) was effective at pH 3. Adsorption kinetic studies showed that adsorbtion of Cr(VI) to follows the pseudo second-order model of Ho with the adsorption rate constant 0.069 (g.mg-1).min-1. Evaluation results show that the adsorption mechanism involved ion exchange interactions, with a maximum desorption results of 60.50% was achieved with NaOH desorbent.

Kata Kunci : adsorpsi, sekam padi, silika, amonium kuaterner, Cr(VI)