Carboxylated 90 nm Red - Fluorescent Nanodiamond in DI water, ~3ppm NV

Carboxylated 90 nm Red - Fluorescent Nanodiamond in DI water, ~3ppm NV

Catalog Number:
N002336329ADÁ
Mfr. No.:
NDNV90nmHi10ml
Price:
$676
  • Size:
    10 mL (1 mg/mL)
    Quantity:
    Add to Cart:
      • Overview
        • Fluorescent nanodiamonds are a chemically robust, infinitely photostable, and biocompatible fluorophore with a range of functional surface chemistries. Relevant applications include fiducial marking, super-resolution microscopy, multiphoton microscopy, time-gated microscopy, and correlative microscopy.

          We offer nitrogen-vacancy (NV) nanodiamonds centers with red-to-near-infrared fluorescence with a variety of surface functionalities. Negatively charged nitrogen-vacancy (NV-) centers possess an electron spin with unique magneto-optical properties: the spin state can be detected optically via optically detected magnetic resonance (ODMR). In turn, the spin state is highly sensitive to the surrounding environment so that changes in the environment can be detected via changes in nitrogen-vacancy (NV) fluorescence. Based on these properties, our customers develop nanodiamond-based quantum sensors of magnetic fields, electric currents, temperature, free radicals, and other phenomena.

          Please contact us at for specific academic pricing.

          Background

          Fluorescent nanodiamonds (FNDs) are highly biocompatible and exhibit unique optical properties, such as photostability, near-infrared fluorescence emission, long fluorescence lifetime, and high quantum yield. The presence of NV centers in FNDs contributes to their exceptional optical properties. The charge state of an NV center can be transition between neutral (NV0) and negative (NV-) states in response to functional groups and impurities on the diamond surface.
          FNDs can be applied in various biomedical applications, including imaging, tracking, sensing, and drug delivery, due to their favorable physicochemical properties. FNDs exhibit emission spectra covering a wide range from visible to near-infrared due to the accommodation of other color centers in the diamond lattice structure. The surface of FNDs can be functionalized to meet specific requirements, such as high dispersibility, conjugation with functional molecules, and biocompatibility.

          More Details

      • Properties
        • Categories
          Carboxylated Red Fluorescent Nanodiamond
          Other Properties
          NV Content: ~3ppm NV
          Particle Size
          90-100 nm

          * For reaserch use only

      • Applications
        • Application
          microscopy; sensing

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