NIR‐I‐Responsive Single‐Band Upconversion Emission through Energy Migration in Core–Shell–Shell Nanostructures
Mingye Ding, Songsong Cui, Liang Fang, Zixia Lin, Chunhua Lu, Xiaofei Yang
Abstract
Abstract Here we report a new strategy to tune both excitation and emission peaks of upconversion nanoparticles (UCNPs) into the first infrared biowindow (NIR‐I, 650–900 nm) with high NIR‐I‐to‐NIR‐I upconversion efficiency. By introducing the sensitizer Nd 3+ , activator Er 3+ , energy migrator Yb 3+ and energy manipulator Mn 2+ into specific region to construct proposed energy migration processes in the designed core–shell–shell nanoarchitecture, back energy transfer (BET) from activator to sensitizer or migrator can be greatly blocked and the NIR‐to‐red upconversion emission can be efficiently promoted. Consequently, BET‐induced photon quenching and the undesired green‐emitting radiative transition are entirely eliminated, leading to high‐efficiency single‐band red upconversion emission upon 808 nm NIR‐I laser excitation. Our findings provide insights into fundamental lanthanide interactions and advance the development of UCNPs for bioapplications with techniques that overturn traditional limitations.