光敏纳米香料应用于壁纸及香气缓控释的研究

利用简单的溶胶-凝胶法制备了介孔二氧化硅纳米棒,并偶联小分子光敏剂ICPES-AZO.通过介孔二氧化硅吸附能力,对檀香803进行载香,制备出光敏性纳米香料.随后,将纳米香料附着在壁纸上,形成芳香壁纸.最后,对芳香壁纸上檀香803的释放进行了检测.研究表明,光照条件下香料可以持续释放,黑暗条件下缓慢释放,具有显著的缓控释效果.

芳香纳米材料的展望

香料香精广泛应用于食品、纺织、皮革、造纸和化妆品等领域,目前香气怡人且长效芳香产品技术的研发已成为国际热点.本课题组围绕纳米香料与多孔纤维材料协同作用机制关键科学问题,获得纳米香料香精、芳香皮革、芳香丝绸和芳香壁纸等产品,从而全方位实现技术-产品-标准3大引领的研究成果和设想,服务于行业的可持续发展.

芳香纳米材料制备与应用研究

功能性芳香材料(香料香精)广泛应用于食品、纺织、皮革、造纸和化妆品等领域,与国民经济和人们生活密切相关,目前香气怡人且长效芳香产品技术的研发已成为国际热点.而我国现有香料香精产品技术只能满足约5万亿元的食品、化妆品与洗涤用品等的加香需求;近10万亿元的皮革、造纸和纺织产品因香料香精制备与应用技术限制,无法实现升级换代.因此,围绕纳米香料与多孔纤维材料协同作用机制这个关键科学问题,拟解决纳米香料香精规模化可控制备和长效芳香纤维制品产业化的关键技术,拓展皮革、纺织和造纸三大行业的应用,最终获得纳米香料香精、芳香皮革、芳香丝绸和芳香壁纸等产品,从而全方位实现技术-产品-标准的三大引领,为行业的可持续发展做出贡献.

Surface modification of Ti O2 nanosheets with fullerene and zinc-phthalocyanine for enhanced photocatalytic reduction under solar-light irradiation

High-efficiency photocatalysts are of great importance to satisfy the requirements of green chemistry nowadays.Here we reported a novel solar-driven photocatalyst fabricated by a facile surface modification method,with the two-dimensional carboxylated zinc phthalocyanine-carboxylated C60-titanium dioxide(Zn Pc-C3-Ti O2)nanosheets,in which the surface modifications of Zn Pc and C60derivative were designed to extend the absorption range and promote charge separation,respectively.Benefiting from the unique structure and positive synergetic effect,the Zn Pc-C3-Ti O2 nanocomposite shows promising applications in selective reduction of nitroarenes for high-value-added aromatic amines under solar light.Especially,for the photocatalytic reduction of nitrobenzene to aniline,the Zn Pc-C3-Ti O2 nanocomposite possesses both high efficiency and selectivity(up to 99%).