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Upconversion in Nanostructured Materials: From Optical Tuning to Biomedical Applications.

Tianying SunFujin AiGuangyu ZhuFeng Wang
Published in: Chemistry, an Asian journal (2018)
Photon upconversion that is characterized by high-energy photon emission followed by lower-energy excitation has been conventionally studied in bulk materials for several decades. This unique nonlinear luminescence process has become a subject of great attention since 2000 when upconverted emission was demonstrated in nanostructured crystals. In comparison with their bulk counterparts, nanostructured materials provide more room for optical fine-tuning by allowing flexible compositional integration and structural engineering. Moreover, the high colloidal stability of nanoparticles coupled with high amenability to surface functionalization opens up a number of new applications for upconversion, especially in the fields of biology and life science. In this focus review, we discuss recent developments in upconversion materials through nanostructural design and review emerging biomedical applications that involve these nanostructured upconversion materials. We also attempt to highlight challenging problems of these nanomaterials that constrain further progress in utilizing upconversion processes.
Keyphrases
  • energy transfer
  • photodynamic therapy
  • quantum dots
  • high resolution
  • public health
  • high speed
  • mass spectrometry
  • solid state
  • working memory
  • air pollution