Short-Wavelength Infra Red (SWIR) Fluorescence in Vivo and Intravital Imaging with Quantum Dots

InAs based core-shell particles which leads to tunable, narrow emitting semiconductor nanocrystals with a very high quantum yield which can be preserved in physiological buffers with long stability can used for short wavelength infrared (SWIR) imaging. Increased resolution with reduced read time and increased imaging frequency can provide advantages in in vivo applications.

Researchers

Daniel Harris / Oliver Bruns / Thomas Bischof / Moungi G Bawendi

Departments: Department of Chemistry
Technology Areas: Chemicals & Materials: Nanotechnology & Nanomaterials / Electronics & Photonics: Semiconductors
Impact Areas: Advanced Materials

  • short-wavelength infrared (swir) fluorescence in vivo and intravital imaging with semiconductor nanocrystals
    United States of America | Granted | 11,077,213

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