High-temperature lubricants comprising elongated carbon nanoparticles for use in subterranean formation operations

1 . (canceled) 2 . (canceled) 3 . (canceled) 4 . (canceled) 5 . (canceled) 6 . A drill bit comprising: a rotary joint defining a sealed segment and an unsealed segment, wherein the sealed segment comprises a high-temperature lubricant comprising an oil-soluble lubricating base fluid or a water-soluble lubricating base fluid and elongated carbon nanoparticles that align in flow in response to frictional forces in the oil-soluble lubricating base fluid or the water-soluble lubricating base fluid; wherein the elongated carbon nanoparticles are graphene nanoribbons having a width in the range of from about 5 nm to about 50 nm and a length in the range of from about 100 nm to about 2 μm; and, wherein the elongated carbon nanoparticles are functionalized so as to at least partially solubilize the elongated carbon nanoparticles into the oil-soluble lubricating base fluid or the water-soluble lubricating base fluid. 7 . The drill bit of claim 6 , wherein the elongated carbon nanoparticles are functionalized with a water-solubilizing group; an oil-solubilizing group; and any combination thereof. 8 . The drill bit of claim 7 , wherein the water-solubilizing group is selected from the group consisting of a carboxyl group; a sulfonate group; a sulfate group; a phosphate group; a phosphonate group; a saccharide group; a nucleoside group; a nucleotide group; a peptide group; a glycol group; a polyethylene oxide group; a polyethylene glycol group; a hydroxyl group; a sulfuric acid ester group; an epoxide group; an aldehyde group; a carbonyl group; a haloformyl group; a carbonate ester group; an ester group; a methoxy group; a hydroperoxy group; a peroxy group; an ether group; a meiacetal group; a meniketal group; an acetal group; an orthoester group; an orthocarbonate ester group; and any combination thereof. 9 . The drill bit of claim 7 , wherein the oil-solubilizing group is a hydrocarbyl group selected from the group consisting of an alkyl group; an alkenyl group; an alkynyl group; a phenyl group; an aryl group; a cycloalkyl group; a prenyl group; a trityl group; a methanidyl group; a adamantan-2-yl group; a cycloalkenyl group; a cycloalkatrienyl group; a cycloalkadienyl group; a C 60 fullerene group; and any combination thereof. 10 . (canceled) 11 . (canceled) 12 . (canceled) 13 . (canceled) 14 . (canceled) 15 . A method of drilling a subterranean formation comprising: providing a drill bit comprising a rotary joint defining a sealed segment and an unsealed segment, wherein the sealed segment comprises a high-temperature lubricant comprising an oil-soluble lubricating base fluid or a water-soluble lubricating base fluid, and elongated carbon nanoparticles that align in flow in response to frictional forces in the oil-soluble lubricating base fluid or the water-soluble lubricating base fluid; wherein the elongated carbon nanoparticles are functionalized so as to at least partially solubilize the elongated carbon nanoparticles into the oil-soluble lubricating base fluid or the water-soluble lubricating base fluid; and, drilling a well bore in the subterranean formation with the drill bit. 16 . The method of claim 15 , wherein the elongated carbon nanoparticles are functionalized with a water-solubilizing group; an oil-solubilizing group; and any combination thereof. 17 . The method of claim 16 , wherein the water-solubilizing group is selected from the group consisting of a carboxyl group; a sulfonate group; a sulfate group; a phosphate group; a phosphonate group; a saccharide group; a nucleoside group; a nucleotide group; a peptide group; a glycol group; a polyethylene oxide group; a polyethylene glycol group; a hydroxyl group; a sulfuric acid ester group; an epoxide group; an aldehyde group; a carbonyl group; a haloformyl group; a carbonate ester group; an ester group; a methoxy group; a hydroperoxy group; a peroxy group; an ether group; a meiacetal group; a meniketal group; an acetal group; an orthoester group; an orthocarbonate ester group; and any combination thereof. 18 . The method of claim 16 , wherein the oil-solubilizing group is a hydrocarbyl group selected from the group consisting of an alkyl group; an alkenyl group; an alkynyl group; a phenyl group; an aryl group; a cycloalkyl group; a prenyl group; a trityl group; a methanidyl group; a adamantan-2-yl group; a cycloalkenyl group; a cycloalkatrienyl group; a cycloalkadienyl group; a C 60 fullerene group; and any combination thereof. 19 . A high-temperature lubricant comprising: an oil-soluble lubricating base fluid having a decomposition temperature of greater than about 200° C.; and elongated nanoparticles that align in flow in response to frictional forces in the oil-soluble lubricating base fluid, wherein the elongated nanoparticles are functionalized with an oil-solubilizing group selected from the group consisting of a hydrocarbyl group selected from the group consisting of an alkyl group; an alkenyl group; an alkynyl group; a phenyl group; an aryl group; a cycloalkyl group; a prenyl group; a trityl group; a methanidyl group; a adamantan-2-yl group; a cycloalkenyl group; a cycloalkatrienyl group; a cycloalkadienyl group; a C 60 fullerene group; and any combination thereof, and wherein functionalization at least partially solubilizes the elongated carbon nanoparticles into the oil-soluble lubricating base fluid. 20 . The high-temperature lubricant of claim 19 , wherein the oil-soluble lubricating base fluid is selected from the group consisting of animal oil; vegetable oil; mineral oil; diesel oil, crude oil; a petroleum derivative; a glycol; an ester; a silicone; a stearate; a polyoxyethylene; an oil-soluble polymer; and any combination thereof. 21 . The high-temperature lubricant of claim 19 , wherein the elongated carbon nanoparticles are selected from the group consisting of graphene nanoribbons; carbon nanotubes; carbon nanohorns; and any combination thereof. 22 . The high-temperature lubricant of claim 21 , wherein the graphene nanoribbons are in the range of from about 5 nm to about 50 nm in width and in the range of from about 100 nm to about 2 μm in length. 23 . A high-temperature lubricant comprising: a water-soluble lubricating base fluid having a decomposition temperature of greater than about 120° C.; and elongated nanoparticles that align in flow in response to frictional forces in the water-soluble lubricating base fluid, wherein the elongated nanoparticles are functionalized with a water-solubilizing group selected from the group consisting of a carboxyl group; a sulfonate group; a sulfate group; a phosphate group; a phosphonate group; a saccharide group; a nucleoside group; a nucleotide group; a peptide group; a glycol group; a polyethylene oxide group; a polyethylene glycol group; a hydroxyl group; a sulfuric acid ester group; an epoxide group; an aldehyde group; a carbonyl group; a haloformyl group; a carbonate ester group; an ester group; a methoxy group; a hydroperoxy group; a peroxy group; an ether group; a meiacetal group; a meniketal group; an acetal group; an orthoester group; an orthocarbonate ester group; and any combination thereof, and wherein functionalization at least partially solubilizes the elongated carbon nanoparticles into the water-soluble lubricating base fluid. 24 . The high-temperature lubricant of claim 23 , wherein the water-soluble lubricating base fluid is selected from the group consisting of an