Sintesis adsorben asam aspartat selulosa epiklorohidrin (SEL-ASP) dan aplikasinya dalam adsorpsi ion Cd(II) telah berhasil dilakukan. Sintesis adsorben SEL-ASP dilakukan dengan mencampurkan selulosa yang diisolasi dari daun mahkota nanas, asam aspartat dan epiklorohidrin dalam kondisi basa. Adsorben hasil sintesis dikarakterisasi menggunakan FTIR dan SEM-EDX. Studi adsorpsi ion Cd(II) oleh adsorben SEL-ASP dilakukan dengan melakukan variasi pH, waktu kontak reaksi dan konsentrasi larutan ion Cd(II). Hasil variasi waktu kontak dan konsentrasi digunakan untuk mempelajari kinetika adsorpsi dan isoterm. Hasil karakterisasi FTIR menunjukkan bahwa adsorben SEL-ASP terdiri dari gugus -OH dan -COOH. Hasil karakterisasi SEM-EDX menunjukkan bahwa adsorben SEL-ASP mengandung unsur C, O dan N. Waktu kontak optimal untuk adsorpsi ion Cd(II) oleh SEL-ASP adalah 150 menit pada pH 5. Model kinetika adsorpsi ion Cd(II) oleh adsorben SEL-ASP mengikuti model kinetika orde dua semu, dan konstanta laju reaksinya adalah 4,46 x 10-3 g mg-1 menit-1. Isoterm adsorpsi mengikuti model isoterm Freundlich dengan nilai KF sebesar 0,203 L mol-1 dan n sebesar 1,258.

The synthesis of aspartic acid cellulose epichlorohydrin (SEL-ASP) adsorbent and its application in Cd(II) ion adsorption has been done. Synthesis of SEL-ASP adsorbent was accomplished by mixing cellulose isolated from pineapple crown leaves, aspartic acid and epichlorohydrin under alkaline conditions. The synthesized adsorbents were characterized using FTIR and SEM-EDX. Study of adsorption of Cd(II) ion by adsorbent SEL-ASP was achieved by varying the pH, reaction contact time and concentration of Cd(II) ion solution. The results of variations in contact time and concentration were used to study adsorption kinetics and isotherms. The FTIR characterization results showed that the SEL-ASP adsorbent consisted of -OH and -COOH groups. SEM-EDX characterization showed that SEL-ASP adsorbent contained C, O and N elements. The optimal contact time for Cd(II) ion adsorption by SEL-ASP was 150 minutes at pH 5. Kinetic model of Cd(II) ion adsorption by SEL adsorbent -ASP follows a pseudo-second-order kinetic model, and the rate constant for the reaction is 4,46 x 10-3 g mg-1 min-1. The adsorption isotherm follows the Freundlich isotherm model with a KF of 0.203 L mol-1 and n of 1,258.

Kata Kunci : adsorben SEL-ASP, ion Cd(II) , isoterm, kinetika.