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  • Two-photon fluorescence correlation spectroscopy of lipid-encapsulated fluorescent nanodiamonds in living cells.

Two-photon fluorescence correlation spectroscopy of lipid-encapsulated fluorescent nanodiamonds in living cells.

Optics express (2010-04-15)
Yuen Yung Hui, Bailin Zhang, Yuan-Chang Chang, Cheng-Chun Chang, Huan-Cheng Chang, Jui-Hung Hsu, Karen Chang, Fu-Hsiung Chang
ABSTRACT

Dynamics of fluorescent diamond nanoparticles in HeLa cells has been studied with two-photon fluorescence correlation spectroscopy (FCS). Fluorescent nanodiamond (FND) is an excellent fluorescent probe for bioimaging application, but they are often trapped in endosomes after cellular uptake. The entrapment prohibits FCS from being performed in a time frame of 60 s. Herein, we show that the encapsulation of FNDs within a lipid layer enhances the diffusion of the particles in the cytoplasm by more than one order of magnitude, and particles as small as 40 nm can be probed individually with high image contrast by two-photon excited luminescence. The development of the technique together with single particle tracking through one-photon excitation allows probing of both short-term and long-term dynamics of single FNDs in living cells.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Fluorescent nanodiamond, Nitrogen vacancy ~3 ppm NV centers, 140 nm avg. part. size, amine functionalized, powder
Sigma-Aldrich
Fluorescent nanodiamond, nitrogen vacancy ~3 ppm, 140 nm avg. part. size, amine functionalized, PEG 3000 coated, 1 mg/mL in deionized water
Sigma-Aldrich
Fluorescent nanodiamond, nitrogen vacancy ~3 ppm NV centers, 140 nm avg. part. size, carboxylic acid functionalized, PEG 3000 coated, 1 mg/mL in deionized water
Sigma-Aldrich
Fluorescent nanodiamond, Nitrogen vacancy ~3 ppm, 100 nm avg. part. size (APS), aminated powder
Sigma-Aldrich
Fluorescent nanodiamond, Nitrogen vacancy >60 NVN/particle, 70 nm avg. part. size (DLS), 1 mg/mL in deionized water