Photoluminescence of carbon quantum dots: coarsely adjusted by quantum confinement effects and finely by surface trap states
基本信息来源于合作网站,原文需代理用户跳转至来源网站获取
摘要:
Photoluminescence (PL) mechanism of carbon quantum dots (CQDs) remains controversial up to now even though a lot of approaches have been made.In order to do that,herein a PL color ladder from blue to near infrared of CQDs with the absolute quantum yields higher than 70% were prepared via a one-pot hydrothermal synthesis route and separated by silica gel column.Time-correlated single photon counting measurements suggest that the electron transition takes in effect in the PL progress of the crystalline core-shell structured CQDs,and the PL properties could be coarsely adjusted by tuning the size of the crystalline carbon core owing to quantum confinement effects,and finely adjusted by changing the surface functional groups consisted shell owing to surface trap states,respectively.Both coarse and fine adjustments of PL,as optical and photoelectrical characterizations and density-functional theory (DFT) calculations have demonstrated,make it possible for top-level design and precise synthesis of new CQDs with specific optical properties.