High biocompatibility, variable size ranging from ≈5 nm, stable luminescence from its color centers, and simple carbon chemistry for biomolecule grafting make nanodiamond (ND) particles an attractive alternative to molecular dyes for drug-delivery. A novel method is presented that can be used for remote monitoring of chemical processes in biological environments based on color changes from photoluminescent (PL) nitrogen-vacancy (NV) centers in ND. The NV luminescence is driven chemically by alternating the surface chemical potential by interacting atoms and molecules with the diamond surface. Due to the small ND size, the changes of the surface chemical potential modify the electric field profile at the diamond surfaces (i.e., band bending) and intermingle with the electronic NV states. This leads to changes in NV−/NV° PL ratio and allows construction of optical chemo-biosensors operating in cells, with PL visible in classical confocal microscopes. This phenomenon is demonstrated on single crystal diamond containing engineered NV centers and on oxidized and hydrogenated ND in liquid physiological buffers for variously sized ND particles. Hydrogenation of NDs leads to quenching of luminescence related to negatively charged (NV−) centers and as a result produces color shifts from NV− (638 nm) to neutral NV° (575 nm) luminescence. How the reduction of diamond size increases the magnitude of the NV color shift phenomena is modeled.
Luminescence from nanodiamond particles modified by oxygen (up) or hydrogen (below) as a consequence of artificially prepared NV-/NV0 centers.
1Faculty of Biomedical Engineering, Czech Technical University in Prague, Sítná 3105, Kladno, Czech Republic
2Institute of Physics ASCR, v. v. i, Na Slovance 2, Praha, Czech Republic
3Nuclear Physics Institute ASCR, v. v. i, Řež u Prahy, Czech Republic
4Institute of Organic Chemistry and Biochemistry ASCR, v. v. i., Flemingovo náměstí 2, Praha, Czech Republic
5Institute of Microbiology ASCR, v. v. i., Vídeňská 1083, Praha, Czech Republic
6IMOMEC Division, IMEC, Institute for Materials Research, University Hasselt, Wetenschapspark 1, Diepenbeek, Belgium
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