A sensor element including a diamond in which nitrogen-vacancy centers in a diamond crystal structure stabilize in a negative charge state. By ensuring that the diamond of the sensor element is n-type phosphorus-doped and contains nitrogen-vacancy centers in the crystal structure, the probability that nitrogen-vacancy centers in the diamond lattice are in a neutral state decreases, and the nitrogen-vacancy centers stabilize in a negative charge state.

A sensor element including a diamond in which nitrogen-vacancy centers in a diamond crystal structure stabilize in a negative charge state. By ensuring that the diamond of the sensor element is n-type phosphorus-doped and contains nitrogen-vacancy centers in the crystal structure, the probability that nitrogen-vacancy centers in the diamond lattice are in a neutral state decreases, and the nitrogen-vacancy centers stabilize in a negative charge state.

Luminescent diamond is made by subjecting a volume of diamond grains to high-pressure/high-temperature conditions with or without a catalyst or pressure transfer media to cause the grains to undergo plastic deformation to produce nitrogen vacancy defects, increasing the luminescent activity/intensity of the resulting diamond material. The consolidated diamond material may be further treated to further increase luminescent activity/intensity including reducing the consolidated diamond material to diamond particles, heat treatment in vacuum, and/or air heat treatment. The resulting luminescent diamond particles display a level of luminescence intensity greater than that of conventional luminescent nanodiamond, and may be functionalized for use in biological applications.

Luminescent diamond is made by subjecting a volume of diamond grains to high-pressure/high-temperature conditions with or without a catalyst or pressure transfer media to cause the grains to undergo plastic deformation to produce nitrogen vacancy defects, increasing the luminescent activity/intensity of the resulting diamond material. The consolidated diamond material may be further treated to further increase luminescent activity/intensity including reducing the consolidated diamond material to diamond particles, heat treatment in vacuum, and/or air heat treatment. The resulting luminescent diamond particles display a level of luminescence intensity greater than that of conventional luminescent nanodiamond, and may be functionalized for use in biological applications.

The present invention provides a photo-exothermic composite material represented by Formula (I) of CNM-(Y.sup.1—R).sub.n1 (I) (wherein, CNM denotes a carbon nanomaterial, Y.sup.1 denotes a divalent linking group, R denotes a group derived from a fluorescent substance or pigment; and n1 is an integer of 1 or greater).

This disclosure provides systems, methods, and apparatus related to color centers. In one aspect, a method includes providing diamond doped with a dopant. A heavy-ion is directed to the diamond that passes through the diamond. The heavy-ion forms a line of dopant-vacancy centers as it passes through the diamond.

This disclosure provides systems, methods, and apparatus related to color centers. In one aspect, a method includes providing diamond doped with a dopant. A heavy-ion is directed to the diamond that passes through the diamond. The heavy-ion forms a line of dopant-vacancy centers as it passes through the diamond.

Method and systems are presented for authentication of precious stones, according to their natural ID and/or predetermined markings created in the stones, based on unique characteristic radiation response of the stone to predetermined primary radiation.

Various aspects according to the instant published patent application relate to a functionalized nanoscale diamond. The functionalized nanoscale diamond includes a functionalized surface. The functionalized surface includes a brominated portion and a hydroxylated portion. In further aspects, the brominated portion can be reacted with an amine to form an aminated nanoscale diamond.

Various aspects according to the instant published patent application relate to a functionalized nanoscale diamond. The functionalized nanoscale diamond includes a functionalized surface. The functionalized surface includes a brominated portion and a hydroxylated portion. In further aspects, the brominated portion can be reacted with an amine to form an aminated nanoscale diamond.