Luminescent Janus nanoparticles refer to a special category of Janus‐based nanomaterials that not only exhibit dual‐asymmetric surface nature but also attractive optical properties. The introduction of luminescence has endowed conventional Janus nanoparticles with many alluring light‐responsive functionalities and broadens their applications in imaging, sensing, nanomotors, photo‐based therapy, etc. The past few decades have witnessed significant achievements in this field. This review first summarizes well‐established strategies to design and prepare luminescent Janus nanoparticles and then discusses optical properties of luminescent Janus nanoparticles based on downconversion and upconversion photoluminescence mechanisms. Various emerging applications of luminescent Janus nanoparticles are also introduced. Finally, opportunities and future challenges are highlighted with respect to the development of next‐generation luminescent Janus nanoparticles with diverse applications.
The
core–shell strategy has been routinely employed to improve
emissive properties of upconversion nanoparticles (UCNPs). However,
the underlying process of forming the core–shell structure
still remains largely unexplored. In this work, we have performed
a time-course study on the growth process of NaErF4@NaYF4 core–shell UCNPs to track time-dependent variations
in size, phase, elemental distribution, and luminescence properties
throughout the whole synthesis process. Our results show that the
formation of core–shell UCNPs includes three major stages:
formation of α-phase shell precursors, transition of the α-phase
to β-phase, and seed-mediated growth. Among these stages, the
first two mainly occur in the early stage of the growth process, while
the last one dominates the subsequent process. During the seed-mediated
growth process, the elemental distribution of the core–shell
nanostructure is observed to change after a short time of reaching
the reaction temperature and it continues throughout the rest of the
growth process. Most importantly, the emissive properties also showed
time-dependent variations, which were attributed to the activation
of different optical pathways due to different shell thicknesses over
time. This study is believed to provide fundamental insights into
the growth mechanism of core–shell UCNPs, which can also be
potentially applied for tuning the luminescence of other core–shell
luminescent nanostructures.
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