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Abstract
The sunscreen nanocapsules were successfully synthesized by the way of layer-by-layer self-assembly using charged droplets (prepared by emulsification of LAD-30, Tween-80 and EHA (2-Ethylhexyl-4-dimethylaminobenzoate)) as templates. Chitosan/sodium alginate/calcium chloride were selected as wall materials to wrap EHA. The emulsions with the ratio of Tween-80 to EHA (1:1) were stable. A stable NEI negative emulsion can be obtained when the ratio of Tween-80 and LAD-30 was 9:1. Chitosan solutions (50 kDa, 0.25 mg/mL) and sodium alginate solutions (0.5 mg/mL) were selected to prepare nanocapsules. The nanocapsules were characterized via some physico-chemical methods. Based on the synergistic effects of the electrostatic interaction between wall materials and emulsifiers, EHA was effectively encapsulated. DLS and TEM showed that the sunscreen nanocapsules were dispersed in a spherical shape with nano-size, with the increasing number of assembly layers, the size increased from 155 nm (NEI) to 189 nm (NEII) to 201 nm (NEIII) and 205 nm after solidification. The release studies in vitro showed sustained release behavior of the nanocapsules were observed with the increase of the number of deposition layers, implying a good coating effect. The sunscreen nanocapsules could control less than 50% the release of EHA after crosslinking of calcium chloride and sodium alginate, which also could effectively avoid the stimulation of the sun protection agent on the skin.
Highlights
The skin damage caused by ultraviolet (UV) radiation has caused widespread concern
The sunscreen nanocapsules encapsulated by EHA were prepared successfully by layer-by-layer self-assembly
dynamic light scattering (DLS) indicated the nano-size and good stability of the sunscreen nanocapsules, and showed the size of nanocapsules increased with the increasing of the layer
Summary
The skin damage caused by ultraviolet (UV) radiation has caused widespread concern. Excessive exposure to UV radiation can bring some serious diseases, such as sunburn, photoageing and skin cancer [1]. It is urgent to develop some efficient sunscreens to protect the skin from UV damage [2]. Sunscreens generally include inorganic and organic compounds. EHA (2-Ethylhexyl4-dimethylaminobenzoate), as a UV filter, is widely used in sunscreens and cosmetics. The practical application of EHA has been limited due to its poor photostability. The strong permeability of EHA into the deep skin could adversely affect skin biology [3]. Some efficient and safe methods have been studied to protect our skin
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