Provided is a synthetic single crystal diamond containing conjugants each composed of one vacancy and one boron atom, wherein the concentration of boron atoms based on atom numbers is 0.1 ppm or more and 100 ppm or less.

Disclosed is a method for wet chemical functionalization of single crystal diamond surfaces that involves gentle reaction conditions. This method enables a wide range of functional groups and molecules to be tethered to the diamond surface. The method is compatible with the formation of stable nitrogen vacancy centers with long spin coherence times within nanometers of the diamond surface.

Disclosed is a method for wet chemical functionalization of single crystal diamond surfaces that involves gentle reaction conditions. This method enables a wide range of functional groups and molecules to be tethered to the diamond surface. The method is compatible with the formation of stable nitrogen vacancy centers with long spin coherence times within nanometers of the diamond surface.

Leaching assemblies for processing superabrasive elements element and methods of processing superabrasive elements include a protective leaching cup and a liner for receiving at least a portion of a superabrasive element. The liner may include a rear wall, a side wall, and a tapered interface extending between the side wall and the rear wall.

Leaching assemblies for processing superabrasive elements element and methods of processing superabrasive elements include a protective leaching cup and a liner for receiving at least a portion of a superabrasive element. The liner may include a rear wall, a side wall, and a tapered interface extending between the side wall and the rear wall.

Provided is a surface-modified nanodiamond having excellent dispersibility in an organic solvent, or a surface-modified nanodiamond which is an intermediate for obtaining the surface-modified nanodiamond. Also, provided is a method of producing surface-modified nanocarbon particles, in which various surface-modifying groups can be introduced into the nanocarbon particles. The surface-modified nanodiamond according to the present disclosure includes a nanodiamond particle and a group that surface-modifies the nanodiamond particle, the group being represented by Formula (1) or (2).

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Provided is a surface-modified nanodiamond having excellent dispersibility in an organic solvent, or a surface-modified nanodiamond which is an intermediate for obtaining the surface-modified nanodiamond. Also, provided is a method of producing surface-modified nanocarbon particles, in which various surface-modifying groups can be introduced into the nanocarbon particles. The surface-modified nanodiamond according to the present disclosure includes a nanodiamond particle and a group that surface-modifies the nanodiamond particle, the group being represented by Formula (1) or (2).

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Provided is a battery electrolytic solution in which a nanocarbon material is highly dispersed. The battery electrolytic solution contains: a dispersion medium; an electrolyte dissolved in the dispersion medium; and a nanocarbon material dispersed with an average dispersed particle size of 500 nm or less in the dispersion medium. The battery electrolytic solution preferably contains the nanocarbon material in an amount from 10 to 100000 mass ppm. The nanocarbon material is preferably at least one selected from the group consisting of a nanodiamond, a fullerene, a graphene, a graphene oxide, a nanographite, a carbon nanotube, a carbon nanofilament, an onion-like carbon, a diamond-like carbon, an amorphous carbon, a carbon black, a carbon nanohorn, and a carbon nanocoil.

Provided is a nanodiamond dispersion composition having excellent dispersibility of nanodiamond particles in an organic dispersion medium even when the organic dispersion medium has a small SP value. The nanodiamond dispersion composition according to an embodiment of the present invention includes an organic dispersion medium, nanodiamond particles dispersed in the organic dispersion medium, and a fatty acid ester dispersing agent. The fatty acid ester dispersing agent preferably has a mass loss rate of 20% or less when held in an air atmosphere at a temperature of 200° C. for 180 minutes. The fatty acid ester dispersing agent preferably has an acid value of 40 mgKOH/g or less.

Provided is a nanodiamond dispersion composition having excellent dispersibility of nanodiamond particles in an organic dispersion medium even when the organic dispersion medium has a small SP value. The nanodiamond dispersion composition according to an embodiment of the present invention includes an organic dispersion medium, nanodiamond particles dispersed in the organic dispersion medium, and a fatty acid ester dispersing agent. The fatty acid ester dispersing agent preferably has a mass loss rate of 20% or less when held in an air atmosphere at a temperature of 200° C. for 180 minutes. The fatty acid ester dispersing agent preferably has an acid value of 40 mgKOH/g or less.