Sintesis hidrotalsit, hidrotalsit kalsinasi, hidrotalsit rehidrasi, dan komposit hidrotalsit termodifikasi kitosan telah dilakukan menggunakan metode kopresipitasi menggunakan bahan dasar Mg(NO3)2.6H2O dan Al(NO3)3.9H2O. Tahap awal dilakukan sintesis hidrotalsit dengan cara pengadukan pada suhu 65 C selama 24 jam. Hidrotalsit yang diperoleh dikalsinasi pada suhu 450 C selama 4 jam. Rehidrasi dilakukan dengan pengadukan fasa liquid dan sonikasi masing-masing selama 1 jam. Komposit hidrotalsit termodifikasi kitosan disintesis menggunakan metode kopresipitasi dengan mendispersikan hidrogel kitosan ke dalam matriksnya. Sintesis komposit dilakukan dengan prosedur yang sama, tanpa melalui tahapan rehidrasi. Elusidasi struktur hidrotalsit, hidrotalsit kalsinasi, hidrotalsit rehidrasi, komposit hidrotalsit termodifikasi kitosan, dan kitosan sebagai pembanding dilakukan menggunakan FT-IR, XRD, dan Surface Area Analyzer. Hidrotalsit, hidrotalsit kalsinasi, hidrotalsit rehidrasi, komposit hidrotalsit termodifikasi kitosan memberikan pita serapan pada bilangan gelombang tertentu serta memiliki puncak karakteristik utama pada bidang d003, d006, d009, dan d110 dengan intensitas dan sudut yang berbeda-beda. Berdasarkan analisis menggunakan BET, material-material tersebut mengikuti adsorpsi tipe ke IV dengan pola hysteresis loop tipe H3. Aktivitas katalitik dari hidrotalsit, hidrotalsit kalsinasi, hidrotalsit rehidrasi, dan komposit hidrotalsit termodifikasi kitosan diuji melalui sintesis senyawa turunan kalkon antara asetofenon dan p-anisaldehida melalui metode pengadukan selama 24 jam sehingga menghasilkan padatan berwarna kuning dengan titik leleh 72 - 73 C.

Synthesis of hydrotalcite, calcined hydrotalcite, rehydrated hydrotalcite, and hydrotalcite-modified chitosan composite were conducted by coprecipitation method using Mg(NO3)2.6H2O and Al(NO3)3.9H2O as starting materials. Initial step was synthesizing hydrotalcite by mechanical stirring at 65 C for 24 hours. Hydrotalcite was calcined at 450 C for 4 hours. Rehydration was conducted by mechanical stirring in liquid phase and sonication, for 1 hour for eact step. Hydrotalcite-modified chitosan composite was synthesized through coprecipitation method by dispersing chitosan hydrogel into its matrix. Synthesis of hydrotalcite-modified chitosan composite was conducted using same method before, exclusion of rehydration step. Structure elucidation of hydrotalcite, calcined hydrotalcite, rehydrated hydrotalcite, hydrotalcite-modified chitosan composite and chitosan as reference by FT-IR, XRD, and Surface Area Analyzer. Hydrotalcite, calcined hydrotalcite, rehydrated hydrotalcite, and hydrotalcite-modified chitosan composite showed absorbance bands at certain wavelengths and had main characteristic peaks at d003, d006, d009, and d110 planes with different intensities and angles. Analysis by BET showed that the materials had adsorption type IV with H3 type loop hysteresis. Catalytic activities of hydrotalcite, calcined hydrotalcite, rehydrated hydrotalcite, and hydrotalcite-modified chitosan composite were tested through synthesis of chalcone derivative between acetophenone and p-anisaldehyde by mechanical stirring method for 24 hours hence yellow solid was obtained with m.p of 72 - 73 C.

Kata Kunci : hidrotalsit, kalkon, katalis, kitosan, komposit / catalyst, chalcone, chitosan, composite, hydrotalcite.