Tolbert Stephanie H, McFadden Peter D, Loy Douglas A
Departments of Materials Science and Engineering and Chemistry and Biochemistry The University of Arizona , Tucson, Arizona 85721, United States.
ACS Appl Mater Interfaces. 2016 Feb 10;8(5):3160-74. doi: 10.1021/acsami.5b10472. Epub 2016 Jan 28.
Effectiveness of organic sunscreens is limited by phototoxicity and degradation. Both of which can be significantly reduced by encapsulation in hollow particles or covalent incorporation into the solid structure of particles, but direct comparisons of the two methods have not been reported. In this study, physical encapsulation and covalent incorporation of sunscreens were compared with 1 mol % salicylate and curcumeroid sunscreens. 2-Ethylhexyl salicylate was physically encapsulated in hollow silica nanoparticles prepared by oil-in-water (O/W) microemulsion polymerizations (E-Sal). Some of these particles were coated with an additional shell or cap of silica to reduce leaking of sunscreen (cap-E-Sal). Covalent incorporation involved co-polymerizing tetraethoxysilane (TEOS) with 0.2 mol % of new salicylate and curcuminoid sunscreen monomers with triethoxsilyl groups. Particles were prepared with the salicylate attached to the silica matrix through single silsesquioxane groups (pendant; P-Sal) and two silsesquioxane groups (bridged; B-Sal). Particles based on a new curcuminoid-bridged monomer were also prepared (B-Curc). Sunscreen leaching, photodegradation, and sunscreen performance were determined for the E-Sal, cap-E-Sal, P-Sal, B-Sal, and B-Curc particles. Covalent attachment, particularly with bridged sunscreen monomers, reduced leaching and photodegradation over physical encapsulation, even with capping.
有机防晒剂的有效性受到光毒性和降解的限制。通过封装在空心颗粒中或共价结合到颗粒的固体结构中,这两种情况都可以显著减少,但尚未见这两种方法的直接比较报道。在本研究中,将防晒剂的物理封装和共价结合与1 mol%的水杨酸酯和姜黄素类防晒剂进行了比较。将2-乙基己基水杨酸酯物理封装在通过水包油(O/W)微乳液聚合制备的空心二氧化硅纳米颗粒中(E-Sal)。其中一些颗粒用额外的二氧化硅壳或帽进行包覆,以减少防晒剂的泄漏(帽-E-Sal)。共价结合涉及将四乙氧基硅烷(TEOS)与0.2 mol%的新型水杨酸酯和带有三乙氧基甲硅烷基的姜黄素类防晒剂单体进行共聚。制备了水杨酸酯通过单倍半硅氧烷基团(悬垂;P-Sal)和两个倍半硅氧烷基团(桥连;B-Sal)连接到二氧化硅基质上的颗粒。还制备了基于新型姜黄素桥连单体的颗粒(B-Curc)。测定了E-Sal、帽-E-Sal、P-Sal、B-Sal和B-Curc颗粒的防晒剂浸出、光降解和防晒性能。共价连接,特别是与桥连防晒剂单体结合,相比于物理封装,即使有包覆,也能减少浸出和光降解。
