Pengaruh Metode Sintesis secara Solvo-Hidrotermal dan Elektrokimia terhadap Morfologi Struktur HKUST-1 sebagai Katalis Heterogen dalam Reaksi Esterifikasi Asam Palmitat

Alchemy: Jurnal Penelitian Kimia Pub Date : 2023-03-23 DOI:10.20961/alchemy.19.1.62466.1-13

W. Lestari, Joni Hartono, Dian Wahyu Tri Wulansari, Enri Pramuja, Fauziyah Azhari, T. Kusumaningsih

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Abstract

Pemilihan metode sintesis akan berpengaruh terhadap karakter material yang dihasilkan yang meliputi kristanilitas, morfologi, luas permukaan, maupun kinerja dalam aplikasinya. Pada penelitian ini telah disintesis HKUST-1 secara solvo-hidrotermal dan elektrokimia dalam pelarut EtOH:H2O (1:1 (v/v)) dan diujicobakan sebagai katalis heterogen dalam esterifikasi asam palmitat. Sintesis secara solvo-hidrotermal, berlangsung dalam autoklaf selama 12 jam pada suhu 120 °C. Sementara itu, sintesis HKUST-1 secara elektrokimia digunakan elektroda tembaga, tegangan sel 15 V selama 90 menit dengan bantuan elektrolit TBATFB pada suhu dan tekanan ambien. Uji katalitik reaksi esterifikasi asam palmitat dilakukan dengan metode refluks selama 2 jam. HKUST-1 hasil sintesis menunjukkan kesesuaian puncak dengan pola difraksi standar CCDC 112954. Hasil refinement menunjukkan HKUST-1 yang diperoleh melalui metode solvo-hidrotermal memiliki kemurnian lebih tinggi. Analisis morfologi menggunakan citra SEM menunjukkan HKUST-1 yang disintesis secara solvo-hidrotermal bergeometri oktahedral sempurna dengan ukuran partikel rata-rata 10,28±1,5 μm, sedangkan HKUST-1 yang disintesis secara elektrokimia berbentuk oktahedral cacat (defect) dengan ukuran partikel rata-rata 4,5±1,6 μm. Analisis termal menunjukkan bahwa HKUST-1 hasil sintesis memiliki stabilitas hingga 300 °C. Uji katalitik dalam reaksi esterifikasi asam palmitat dengan etanol dengan keberadaan katalis HKUST-1 (0,6% berat) menunjukkan peningkatan konversi produk dengan konversi yang paling tinggi ditunjukkan pada HKUST-1 yang disintesis dengan metode elektrokimia (mencapai 43,3%).Effect of Solvo-Hydrothermal and Electrochemical Synthesis Methods on the Structural Morphology of HKUST-1 as a Heterogeneous Catalyst in Palmitic Acid Esterification Reaction. Selection of synthesis method will influence the materials properties including crystallinity, morphology, surface area, and application performance. In this research HKUST-1 was successfully synthesized under solvo-hydrothermal and electrochemical method, and tested as a heterogeneous catalyst in esterification reactions of palmitic acid. Synthesis under solvo-hydrothermal condition was performed in an autoclave at 120 °C for 12h. In addition, the electrochemical synthesis of HKUST-1 using copper electrodes was performed at 15 V in ambient temperature and pressure, for 90 minutes with TBATFB as an electrolyte. The catalytic test in palmitic acid esterification reaction was carried out by reflux for 2h. The HKUST-1 showed conformity with the standard diffraction pattern CCDC 112954. The refinement results shows that solvothermal product has higher purity. Morphological analysis using SEM imaging showed HKUST-1 obtained from solvo-hydrothermal method possess perfect octahedral geometry with average particle size 10.28±1.58 μm, meanwhile electrochemically-synthesized possess a defect octahedral geometry with average particle size 4.5±1.6 μm. Thermal analysis showed that HKUST-1 is stable up to 300 °C. Catalytic test in esterification reaction of palmitic acid with ethanol in the presence of HKUST-1 as catalyst (0.6% wt) showed an enhanced product conversion with highest conversion was achieved in the presence of electrosyntehsized HKUST-1 (up to 43.3%).

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作为棕榈酸溶化的异质催化剂，红液和电化学合成方法对HKUST-1结构形态的影响

选择合成方法将影响产生的材料特性，其中包括基督、形态、表面积和应用程序的性能。本研究采用人工合成HKUST-1溶剂中的热液和电化学:H2O (1:1 (v/v)，并在棕榈酸酯酯中作为异质催化剂进行试验。合成autoklaf中solvo-hidrotermal,持续了12个小时在120°C的高温。与此同时，用电化学合成HKUST-1使用的是铜电极，在环境温度和压力下，用TBATFB电解质TBATFB的帮助下，用15 - V合成了90分钟。在二小时内用反流法进行的致裂化反应测试。HKUST-1合成结果显示，CCDC标准衍射模式112954与峰值匹配。修正结果表明，通过热液溶剂方法获得的HKUST-1纯度更高。形态学分析使用合成的SEM图像显示了HKUST-1 solvo-hidrotermal完美地具有八面体bergeometri平均粒度10.28±1.5μm,而HKUST-1电化学合成的粒子具有八面体形状与大小(defect缺陷)平均4.5±1.6μm。热分析结果表明HKUST-1合成有稳定至300°C。含乙醇和乙醇存在的乙醇的催化作用对乙醇1(0.6%重)的存在表明，用电化学方法(达到43.3%)合成的HKUST-1产品的转化率增加，最高的转化率也增加了。溶化水和电化学合金术就像棕榈酸外化反应中的异型甲骨文。合成的方法会影响材料的特性包括晶体学、形态学、表面面积和应用性能。在这项研究中，hkust 1正在成功地将盐酸和电化学方法结合在溶剂和电化学方法下，并检测为棕榈酸的异型异质催化剂。下一个综合体。solvo-hydrothermal condition was performed in an高压釜在120°C for 12h。另外，HKUST-1使用copper电子的电合成器在环境温度和压力下，在90分钟内对美国电解质进行了检测。棕榈酸递质检测结果显示为2h。HKUST-1与标准衍射模式cdc 112954有不足之处。销售代表表现出更加纯洁。用闪Morphological分析成像那里HKUST-1一起获得来自solvo-hydrothermal方法拥有完美octahedral几何平均粒子大小10 . 28±1。58 .μm, meanwhile electrochemically-synthesized拥有a defect octahedral几何与平均粒子大小4。5±1。6μm。热分析那里那个HKUST-1是稳定取决于300°C。透明质乙醇的音节反应测试与加泰罗伊坦在加泰罗伊坦的表现中已经成功

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Alchemy: Jurnal Penelitian Kimia

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