在水相中,以巯基乙酸(TgA)为稳定剂制备了具有短波长荧光的znSE量子点.研究了znSE量子点光诱导荧光增敏的机理,并提出通过补加zn2+和TgA以提高光诱导荧光增敏效率以及所得znSE量子点的稳定性这一新思路.研究结果表明,提高补加的zn2+和TgA的量即可增加znSE量子点表面znS壳层的厚度,更好地钝化其表面,从而不仅可显著提高znSE量子点的荧光量子产率(最高可接近15%),而且可大大地提高其表面的抗氧化性和荧光稳定性.ZnSe Qdots with short wavelength-fluorescence were prepared in aqueous solution with thioglycolic acid(TGA) as capping reagent.The mechanism of photo-induced fluorescence enhancement was studied and it was proposed a novel approach involved in the addition of compensatory Zn2+ ions and TGA to the original ZnSe solution to increase the efficiency of photo-induced fluorescence enhancement and stability of ZnSe Qdots.The research indicated that the thickness of ZnS shell increases with the increase of the quantity of Zn2+ ions and TGA.The ZnS shell made a better passivation of the ZnSe Qdot surface,thus resulted in not only higher fluorescence quantum yield(maximal 15%),but also higher stability of ZnSe Qdots.It was expected that the proposed approach would also provide a novel route to increase the fluorescence quantum yield and stability of other types of Qdot prepared in aqueous solution.浙江省自然科学基金资助项目(Y4080518
