Use of CoO/ZnAl2O4 Catalysts and Microwaved Assisted in Vanillin Synthesis

Jurnal Kimia Valensi Pub Date : 2023-06-01 DOI:10.15408/jkv.v9i1.29727

Damiana Nofita Birhi, E. Iftitah, W. Warsito

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Abstract

Vanillin is a main component in vanilla, which is widely used in the industrial world. Market demand for vanillin extract continues to increase, while the availability of vanilla pods is decreasing. To overcome this problem, research on the synthesis of vanillin continues to be carried out and develops every year. This research aims to examine the conversion level and selectivity of the catalyst as well as microwave radiation efficiency usage in vanillin synthesis. Catalyst CoO/ZnAl2O4 was synthesized from CoO and ZnAl2O4 using the impregnation method, then analyzed using FTIR, XRD, and SEM-EDX. Vanillin synthesis was conducted in two steps, incorporating microwave usage at 120oC, underwent 30 minutes to be completed then followed by oxidation around 10- and 15-minutes involving nitrobenzene also 1%, 4%, and 7% of catalysts CoO/ZnAl2O4. The result showed that during 10 and 15 minutes, the selectivity value and various yield percentages for each time variation and catalyst loading of vanillin had been successfully 100% converted. The best result was obtained using CoO/ZnAl2O4 with 4% catalyst loading for 15 minutes. The selectivity value and yield percentages were 67.78% and 7.5%. A one-step vanillin synthesis with conventional reflux could also be a comparison. The reactions were done at 130oC for 2 and 3 hours with 4% catalyst loading.

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用CoO/ZnAl2O4催化剂和微波辅助合成香兰素

香兰素是香草的主要成分，在工业中被广泛使用。市场对香草素提取物的需求持续增加，而香草豆荚的供应却在减少。为了克服这一难题，香兰素的合成研究每年都在继续进行和发展。本研究旨在考察该催化剂在香兰素合成中的转化水平和选择性，以及微波辐射效率的使用。以CoO和ZnAl2O4为原料，采用浸渍法制备了CoO/ZnAl2O4催化剂，并用FTIR、XRD和SEM-EDX对催化剂进行了分析。香兰素的合成分两步进行，在120℃的微波条件下，30分钟完成，然后在硝基苯和1%、4%和7%的CoO/ZnAl2O4催化剂的作用下氧化10分钟和15分钟。结果表明，在10和15分钟内，每次时间变化和催化剂负载对香兰素的选择性值和收率的影响均达到100%。CoO/ZnAl2O4催化剂负载4%，反应时间为15分钟，效果最好。选择性值为67.78%，收率为7.5%。一步法合成香兰素和常规回流法也可以作为比较。反应温度为130℃，催化剂用量为4%，反应时间分别为2和3小时。

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