posted on 2016-03-24, 00:00authored byHaydar Ali, Susanta Kumar Bhunia, Chumki Dalal, Nikhil R. Jana
Fluorescent carbon nanoparticle-based
probes with tunable visible
emission are biocompatible, environment friendly and most suitable
for various biomedical applications. However, synthesis of red fluorescent
carbon nanoparticles and their transformation into functional nanoparticles
are very challenging. Here we report red fluorescent carbon nanoparticle-based
nanobioconjugates of <25 nm hydrodynamic size and their application
as fluorescent cell labels. Hydrophobic carbon nanoparticles are synthesized
via high temperature colloid-chemical approach and transformed into
water-soluble functional nanoparticles via coating with amphiphilic
polymer followed by covalent linking with desired biomolecules. Following
this approach, carbon nanoparticles are functionalized with polyethylene
glycol, primary amine, glucose, arginine, histidine, biotin and folic
acid. These functional nanoparticles can be excited with blue/green
light (i.e., 400–550 nm) to capture their emission spanning
from 550 to 750 nm. Arginine and folic acid functionalized nanoparticles
have been demonstrated as fluorescent cell labels where blue and green
excitation has been used for imaging of labeled cells. The presented
method can be extended for the development of carbon nanoparticle-based
other bioimaging probes.