Upconversion nanoparticles(UCNPs)with hollow structures exhibit many fascinating optical properties due to their special morphology.However,there are few reports on the exploration of hollow UCNPs and their optical applications,mainly because of the difficulty in constructing hollow structures by conventional methods.Here,we report a one-step template-free method to synthesize NaBiF4∶Yb,Er(NBFYE)hollow UCNPs via Ostwald ripening under solvothermal conditions.Moreover,we also elucidate the possible formation mechanism of hollow nanoparticles(HNPs)by studying the growth process of nanoparticles in detail.By changing the contents of polyacrylic acid and H2O in the reaction system,the central cavity size of NBFYE nanoparticles can be adjusted.Benefiting from the structural characteristics of large internal surface area and high surface permeability,NBFYE HNPs exhibit excellent luminescence properties under 980 nm near-infrared irradiation.Importantly,NBFYE hollow UCNPs can act as self-referenced ratiometric luminescent thermometers under 980 nm laser irradiation,which are effective over a wide temperature range from 223 K to 548 K and havea maximum sensitivity value of 0.0065 K-at 514 K.Our work clearly demonstrates a novel method for synthesizing HNPs and develops their applications,which provides a new idea for constructing hollow structure UCNPs and will also encourage researchers to further explore the optical applications of hollow UCNPs.

Ran An;Yuan Liang;Ruiping Deng;Pengpeng Lei;Hongjie Zhang

State Key Laboratory of Rare Earth Resource Utilization,Changchun Institute of Applied Chemistry,Chinese Academy of Sciences,5625 Renmin Street,130022 Changchun,China;University of Science and Technology of China,230026 Hefei,China;Ganjiang Innovation Academy,Chinese Academy of Sciences,341000 Ganzhou,Jiangxi,China;Department of Chemistry,Tsinghua University,100084 Beijing,China

光：科学与应用（英文版）

[1]Ran An;Yuan Liang;Ruiping Deng;Pengpeng Lei;Hongjie Zhang-.Hollow nanoparticles synthesized via Ostwald ripening and their upconversion luminescence-mediated Boltzmann thermometry over a wide temperature range)[J].光：科学与应用（英文版）,2022(08):1916-1924

NaBiF4,NBFYE,thermometers,havea

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