Telah dilakukan sintesis komposit kitosan-magnetit termodifikasi asam oleat untuk memperoleh adsorben bersifat magnetit dan aplikasinya sebagai adsorben Cr(III) dalam larutan. Kitosan diisolasi dari cangkang udang melalui proses deproteinasi, demineralisasi, depigmentasi, dan deasetilasi. Magnetit termodifikasi asam oleat disintesis menggunakan metode kopresipitasi dimana larutan NH4OH 1 M ditambahkan ke dalam campuran larutan Fe2+ dan Fe3+ (rasio molar 1:2) sampai pH 11.5, kemudian ditambahkan asam oleat 3 mL. Kedua material tersebut dikompositkan sehingga terbentuk komposit kitosan-magnetit termodifikasi asam oleat yang kemudian dikarakterisasi dengan Fourier Transform Infrared (FTIR), X-Ray Difractometer (XRD), Transmission Electron Microscope (TEM), dan Vibrating Sampel Magnetometer (VSM). Kitosan berhasil diisolasi dari cangkang udang dengan derajat deasetilasi sebesar 81%. Komposit kitosan-magnetit termodifikasi asam oleat berhasil disintesis dan diperoleh ukuran partikel sekitar 19,05 nm. Ukuran tersebut lebih kecil dibanding komposit kitosan-magnetit tanpa modifikasi asam oleat dengan ukuran partikel sekitar 38,94 nm. Hasil tersebut menunjukkan bahwa penambahan asam oleat dapat mencegah terjadinya aglomerasi pada magnetit. Hasil adsorpsi menunjukkan bahwa adsorpsi Cr(III) oleh komposit kitosan-magnetit termodifikasi asam oleat secara optimal pada pH 5 dan mengikuti kinetika pseudo orde dua Ho dengan nilai konstanta laju adsorpsi (k) sebesar 4,672 x 10-3 g/mg.menit dan kapasitas adsorpsi sebesar 50,505 mg/g atau 9,712 x 10-4 mol/g. Adsorben komposit kitosan-magnetit termodifikasi asam oleat dapat dipisahkan dari larutan lebih cepat dengan bantuan medan magnet eksternal.

Chitosan-magnetite composite modified by oleic acid has been synthesized by coprecipitation method and applicated as adsorbent of Cr(III) from aqueous solution. Chitosan was isolated by deproteination of utilited shrimp shells and followed by demineralization, depigmentation, and deacetylation procces. In the synthesis of magnetite modified oleic acid, solution of NH4OH 1 M was added into solution of Fe2+ and Fe3+ (molar ratio 1:2) until pH 11.5, then 3 mL oleic acid was added. Both of those materials are composited to form chitosan-magnetite composite modified by oleic acid. The adsorbent was characterized with Fourier Transform Infrared (FTIR), X-Ray Difractometer (XRD), Transmission Electron Microscope (TEM), and Vibrating Sampel Magnetometer (VSM). Chitosan has been isolated from shrimp shells with deacetylation degree was 81 %. Chitosan-magnetite composite modified by oleic acid has been succesfully synthesized and the results show that particel size of about 19.05 nm. The particel size of chitosan-magnetite composite modified by oleic acid is smaller than chitosan-magnetite composite without modified by oleic acid with the particle size of about 38.94 nm. The results suggest that the addition of oleic acid can prevent the agglomeration of the magnetite. The results showed that the optimum pH of the Cr(III) adsorption by chitosan-magnetite composite modified by oleic acid was 5. The kinetics data corelated well with the pseudo second order Ho equation with the value of rate constant (k) was 4.672 x 10-3 g/mg.min and the capacity of adsorption was 50.505 mg/g or 9.712 x 10-4 mol/g. The adsorbent of chitosan-magnetite modified by oleic acid could be removed faster by external magnet.

Kata Kunci : Kitosan, Magnetit, Asam oleat, Komposit, Adsorpsi