Sintesis Nanoemulsi dari Ekstrak Kulit Manggis dengan Metode Energi Tinggi

Jurnal Teknologi dan Industri Pangan Pub Date : 2023-06-27 DOI:10.6066/jtip.2023.34.1.109

Trianto Rizki, Sedarnawati Yasni, Tjahja Muhandri, S. Yuliani

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Abstract

Mangosteen (Garcinia mangostana L.) has become the main agricultural products contributing to the largest annual foreign exchange from the fruit category. Mangosteen rind contains xanthone compounds as a source of antioxidants, with α-mangostin and γ-mangostin, as the main components which are used as traditional and modern ingredients to treat various diseases. However, mangosteen rind extract has low bioavailability thus resulting in low effectiveness in the application. This study aimed to find the ideal formulation for producing the extract and nanoemulsion of mangosteen peel. The research carried out in two stages: extraction of mangosteen peel and production of nanoemulsion. Ethanol 70% was the best for mangosteen rind extraction, with a percentage yield of 40.96±0.51%, antioxidant activity of 5708.33±159.57 µg AEAC/mL sample, and total xanthones of 373.84±6.49 µg/mL sample. The use of Tween 20 at nanoemulsion production gave the best test results, with particle size of 10.58±1.25 nm, polydispersity index 0.27±0.03, zeta potential -2.34±0.46 mV, and total xanthones 35,28±0,04 µg/mL sample.

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用高能方法合成皮肤萃取的纳米乳液

山竹(Garcinia mangostana L.)已成为主要农产品，从水果类别中贡献最大的年度外汇。山竹果皮含有抗氧化剂来源的山酮类化合物，以α-山竹苷和γ-山竹苷为主要成分，是传统和现代治疗多种疾病的食材。但山竹皮提取物的生物利用度较低，应用效果较差。本研究旨在寻找山竹皮提取液和纳米乳的理想配方。研究分山竹皮提取和山竹纳米乳制备两个阶段进行。以70%乙醇为最佳提取条件，山竹皮提取率为40.96±0.51%，抗氧化活性为5708.33±159.57µg AEAC/mL，总山酮含量为373.84±6.49µg/mL。采用Tween 20制备纳米乳的实验结果最佳，样品粒径为10.58±1.25 nm，多分散性指数为0.27±0.03,zeta电位为-2.34±0.46 mV，总山酮含量为35,28±0.04µg/mL。

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Jurnal Teknologi dan Industri Pangan

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24 weeks