Non-caloric artificial sweeteners (NAS) are currently the world's most widely used food additives. But recent research shows that there are still controversies. As a result, natural sweeteners had gained much attention than NAS. Recently, the fastest growing market of natural sweetener is the sweeteners made from monk fruit, not only because its extracts are highest in sweetness among various natural sweeteners but also parts of the sweetness compounds have significant anti-diabetic activity. However, one of the components in monk fruit extracts called Siamenoside I (S I), which found to be the most sweetness compound and taste most closely to sucrose, are relatively low in contents. As the results, the development of methods to enrich the contents of S I in monk fruit extracts and related products are the goals for the current natural sweetener manufacturers. The bitter tastes and flavors of saponins-containing functional foods and related beverages are still the issues to be addressed. Here, we proposed to take the advantage of the electrospun nanofiber membrane's high enzyme immobilizing efficiency and stabilizing properties, together with the continuous packed-bed column, to obtain S I from MG V. These not only improve the taste of monk fruit extracts as natural sweeteners but also help to gain access of pure S I compound. Accordingly, we proposed a method to improve the saponins usages as a natural sweetener and as a health food ingredient through enzymes immobilized on electrospun nanofiber mat.