The sweet potato (Ipomoea batatas L.) is already well known, widely used and one of the most important plant food crops. Due to its characteristic nutritional value and the rich composition of bioactive compounds of the secondary root thickening, the sweet potato has numerous functional properties in addition to its nutritional value, which is why it is considered a very valuable food from a health point of view. The primary aim of cultivating this species is the secondary thickening of the root, which is most commonly used in the culinary and food industry. However, what is less known is that the above-ground part of the plant, i.e. the leaf, is also edible, where numerous positive effects on human health have been demonstrated. Growers usually discard the above-ground part of the sweet potato after removing the roots, or use it for compost or as animal feed, although there is significant potential for additional use of the sweet potato leaf, mainly as a leafy vegetable, but also for the preparation of various food supplements, such as dried leaves that can be used as a water infusion. The aim of this work was therefore to determine the content of specific leaf metabolites and the functional potential of sweet potato leaves. For this purpose, the leaves of three sweet potato varieties were analyzed: white, purple and orange. The content of total dry matter, ascorbic acid, total phenols (flavonoids and non-flavonoids), photosynthetic pigments (chlorophyll a, chlorophyll b, total chlorophyll and total carotenoids) and antioxidant capacity were determined. According to the research results, the highest content of total dry matter (16.46%), ascorbic acid (54.86 mg/100 g fw), total polyphenols (576.20 mg/100 g fw) and total flavonoids (284.01 mg/100 g fw) was determined for a leaf of the purple variety of sweet potato. According to the results of the content of photosynthetic pigments analyzed, significantly higher levels of chlorophyll a, total chlorophyll and total carotenoids were found in the leaves of the purple sweet potato variety (0.99 mg/g; 1.45 mg/g; 0.69 mg/g), while the highest content of chlorophyll b was determined in the leaves of the white (0.45 mg/g) and purple (0.46 mg/g) sweet potato varieties. When analyzing the antioxidant capacity of the leaves of three sweet potato varieties, the highest values were determined using the FRAP method for the leaves of the white and purple sweet potato varieties. It can be concluded that the aerial part of the sweet potato is an extremely valuable raw material that should not be thrown away, but used in fresh or processed form, as it contains a wealth of bioactive compounds with extremely valuable nutritional value.