Synthesis and photoluminescence characterization of dendrimer-encapsulated CdS quantum dots

摘要

We synthesized CdS quantum dots (QDs) encapsulated within nth-generation hydroxyl-terminated poly(amidoamine) (PAMAM) dendrimers (Gn-OH) by coordination of Cd[2+] ions and subsequent reaction with Na2S. We systematically examined the effects of Cd[2+] ion/dendrimer ratio (x), generations of dendrimers, and temperatures on the resultant CdS QDs to elucidate the formation mechanism and to optimize the conditions for the encapsulation of QDs. The resultant QDs were analyzed by UV–vis spectroscopy, photoluminescence spectra spectroscopy, and transmission electron microscopy (TEM). Through a detailed analysis, we concluded that the first requisite for stable dispersions of CdS QDs with Gn-OH is to set x to be less than 2n because a Cd[2+] ion is supposed to bind to two adjacent coordination sites of 2[n+1] outermost tertiary amines of a Gn-OH dendrimer. Further, we clarified that higher-generation dendrimers can confine smaller QDs because of denser surfaces. Finally a lower temperature is found to promote the coordination of Cd[2+] ions with dendrimers, and accordingly suppress the nucleation outside the dendrimers which produces larger QDs.