Login / Signup

Conversion of Photoluminescence Blinking Types in Single Colloidal Quantum Dots.

Changgang YangYang LiXiaoqi HouMi ZhangGuofeng ZhangBin LiWenli GuoXue HanXiuqing BaiJialu LiRuiyun ChenChengbing QinJianyong HuLiantuan XiaoSuotang Jia
Published in: Small (Weinheim an der Bergstrasse, Germany) (2023)
Almost all colloidal quantum dots (QDs) exhibit undesired photoluminescence (PL) blinking, which poses a significant obstacle to their use in numerous luminescence applications. An in-depth study of the blinking behavior, along with the associated mechanisms, can provide critical opportunities for fabricating high-quality QDs for diverse applications. Here the blinking of a large series of colloidal QDs is investigated with different surface ligands, particle sizes, shell thicknesses, and compositions. It is found that the blinking behavior of single alloyed CdSe/ZnS QDs with a shell thickness of up to 2 nm undergoes an irreversible conversion from Auger-blinking to band-edge carrier blinking (BC-blinking). Contrastingly, single perovskite QDs with particle sizes smaller than their Bohr diameters exhibit reversible conversion between BC-blinking and more pronounced Auger-blinking. Changes in the effective trapping sites under different excitation conditions are found to be responsible for the blinking type conversions. Additionally, changes in shell thickness and particle size of QDs have a significant effect on the blinking type conversions due to altered wavefunction overlap between excitons and effective trapping sites. This study elucidates the discrepancies in the blinking behavior of various QD samples observed in previous reports and provides deeper understanding of the mechanisms underlying diverse types of blinking.
Keyphrases
  • quantum dots
  • optical coherence tomography
  • energy transfer
  • emergency department
  • sensitive detection
  • photodynamic therapy
  • high resolution
  • high speed