材料科学
光降解
吸收(声学)
光催化
光化学
量子点
紫外线
硅
带隙
可见光谱
罗丹明B
光电子学
化学工程
纳米技术
有机化学
化学
复合材料
催化作用
工程类
作者
Gang Hu,Yuqiong Sun,Yixuan Xie,Shuangshuang Wu,Xuejie Zhang,Jianle Zhuang,Chaofan Hu,Bingfu Lei,Yingliang Liu
标识
DOI:10.1021/acsami.8b20138
摘要
UV absorbers are very effective in the fields of antiyellowing, resistance of photocatalytic degradation, and sunscreen cosmetics. However, commercialized UV absorbers have the drawbacks of toxicity, low absorption efficiency, transparency, etc. Here, we report for the first time silicon quantum dots as full-band UV absorbers. The NH-refunctionalized silicon quantum dots with high-performance UV absorption were successfully synthesized under the synergistic effect of sodium citrate and ethanediamine, and the (NH, OH)-functionalized silicon quantum dots (SiQDs) with full-band UV absorption can be achieved by reregulating −NH2 and −OH groups on the surface. The as-prepared (NH, OH)-functionalized SiQDs exhibited good stability and underwent treatment of varying pH and temperature. Furthermore, experimental results demonstrated that compared to commercial water-soluble organic UV absorbers, the (NH, OH)-functionalized SiQDs showed better antiyellowing performance for polyurethane and resistance of photocatalytic degradation for rhodamine B, and presented huge application potential in sunscreen cosmetics. Finally, the UV absorption mechanism of SiQDs was explained to be mainly related to Γ → Γ direct band gap transition, which absorb UV light and release it as thermal radiation.
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