Abstract: Provided are compositions of bundles or clumps of a reaggregated plurality of discrete carbon nanotubes with an additive whereupon the bundles or clumps disaggregate during a fabrication process that uses less than 10,000 ppm of aqueous or non-aqueous solvent. The composition can be mixed further with electroactive material to make electrodes for energy storage or collection devices.

Abstract: Stem cell, bone and nerve scaffolding comprising discrete carbon nanotubes is disclosed. The discrete carbon nanotubes may be have targeted, or selective oxidation levels and/or content on the interior and exterior of the tube walls. The described scaffolding may be used to guide, target and protect stem cells upon injection into the body.

Abstract: Stem cell, bone and nerve scaffolding comprising discrete carbon nanotubes is disclosed. The discrete carbon nanotubes may be have targeted, or selective oxidation levels and/or content on the interior and exterior of the tube walls. The described scaffolding may be used to guide, target and protect stem cells upon injection into the body.

Abstract: Stem cell, bone and nerve scaffolding comprising discrete carbon nanotubes is disclosed. The discrete carbon nanotubes may be have targeted, or selective oxidation levels and/or content on the interior and exterior of the tube walls. The described scaffolding may be used to guide, target and protect stem cells upon injection into the body.

Abstract: In various embodiments a payload molecule or drug molecule delivery system is disclosed. The system comprises a plurality of functionalized discrete carbon nanotubes having specific properties. The composition can comprise a plurality of discrete carbon nanotubes that have at least a portion of the carbon nanotubes with a number average (ratio of number average contour length to end to end length) of greater than 1.1 and up to about 3. These discrete carbon nanotubes having the specified ratio of number average (tube contour length (TCL) to number average tube end-end length (TEE)) ratio are not only discrete (separated) from one another, but are also controlled in their alignment such that processability and mechanical strength properties are both enhanced. Utility of the molecular rebar composition includes, but is not limited to improved payload molecule delivery, such as drug delivery, into body of an animal, such as human.

Abstract: New homogeneous fluids with a viscosity less than about three Poise comprising discrete carbon nanotubes with volume fractions above the percolation threshold concentration calculated for randomly oriented rods in a liquid are disclosed. A method is also disclosed for production of the new fluids. The fluids are particularly useful for making battery pastes.

Abstract: In various embodiments a payload molecule or drug molecule delivery system is disclosed for delivering paclitaxel. The system comprises a plurality of functionalized discrete carbon nanotubes having specific properties. The composition can comprise a plurality of discrete carbon nanotubes that have at least a portion of the carbon nanotubes with a number average (ratio of number average contour length to end to end length) of greater than 1.1 and up to about 3. These discrete carbon nanotubes having the specified ratio of number average (tube contour length (TCL) to number average tube end-end length (TEE)) ratio are not only discrete (separated) from one another, but are also controlled in their alignment such that processability and mechanical strength properties are both enhanced. Utility of the molecular rebar composition includes, but is not limited to improved payload molecule delivery, such as drug delivery, into body of an animal, such as human.

Abstract: In various embodiments a payload molecule or drug molecule delivery system is disclosed. The system comprises a plurality of functionalized discrete carbon nanotubes having specific properties. The composition can comprise a plurality of discrete carbon nanotubes that have at least a portion of the carbon nanotubes with a number average (ratio of number average contour length to end to end length) of greater than 1.1 and up to about 3. These discrete carbon nanotubes having the specified ratio of number average (tube contour length (TCL) to number average tube end-end length (TEE)) ratio are not only discrete (separated) from one another, but are also controlled in their alignment such that processability and mechanical strength properties are both enhanced. Utility of the molecular rebar composition includes, but is not limited to improved payload molecule delivery, such as drug delivery, into body of an animal, such as human.

Abstract: A transdermal patch comprising discrete open-ended carbon nanotubes is disclosed.

Abstract: New homogeneous fluids with a viscosity less than about three Poise comprising discrete carbon nanotubes with volume fractions above the percolation threshold concentration calculated for randomly oriented rods in a liquid are disclosed. A method is also disclosed for production of the new fluids. The fluids are particularly useful for making battery pastes.