Abstract: A method for making carbon nanotube array includes providing a carbon nanotube array formed on a surface of a substrate. The carbon nanotube array is stripped from the surface of the substrate. The carbon nanotube array is suspended in an inert gas environment or a vacuum environment. A temperature of the carbon nanotube array can be in a range from about 200° C. to about 2400° C. by heating the carbon nanotube array. In a state of heating the carbon nanotube array, a plurality of carbon nanotubes of the carbon nanotube array is selected and a carbon nanotube film is pulled out by a drawing tool.

Abstract: A method for patterning a carbon nanotube array is disclosed. A carbon nanotube array is transferred onto a surface of a substitute substrate. The carbon nanotube array has a second surface adjacent to the substitute substrate and a first surface away from the substitute substrate. The carbon nanotube array is laser etched from the first surface to divide the carbon nanotube array into two areas which are a preserving area and a removing area. A carbon nanotube structure is drawn from the removing area.

Abstract: A method for transferring a carbon nanotube array is provided. A substitute substrate, a growing substrate, and a carbon nanotube array grown on the growing substrate are provided. The carbon nanotube array has a bottom surface adjacent to the growing substrate and a top surface away from the growing substrate. The substitute substrate is placed on the top surface of the carbon nanotube array and PVA solution is sandwiched between the substitute substrate and the carbon nanotube array. The PVA solution is frozen between the substitute substrate and the carbon nanotube array. The substitute substrate is separated from the growing substrate to separate the bottom surface of the carbon nanotube array from the growing substrate. The solvent in the solid PVA solution is removed and only PVA is left between the substitute substrate and the carbon nanotube array. A method for forming a carbon nanotube structure is also provided.

Abstract: A method for transferring a carbon nanotube array is provided. A substitute substrate, a growing substrate, and a carbon nanotube array grown on the growing substrate are provided. The carbon nanotube array has a bottom surface adjacent to the growing substrate and a top surface away from the growing substrate. The substitute substrate is placed on the top surface of the carbon nanotube array and liquid medium is sandwiched between the substitute substrate and the carbon nanotube array. The liquid medium is solidified between the substitute substrate and the carbon nanotube array. The substitute substrate is separated from the growing substrate to separate the bottom surface of the carbon nanotube array from the growing substrate. The solid medium is removed between the substitute substrate and the carbon nanotube array. A method for forming a carbon nanotube structure is also provided.

Abstract: A method for transferring a carbon nanotube array is provided. A substitute substrate, a growing substrate, and a carbon nanotube array grown on the growing substrate are provided. The carbon nanotube array has a bottom surface adjacent to the growing substrate and a top surface away from the growing substrate. The substitute substrate is placed on the top surface of the carbon nanotube array and water is sandwiched between the substitute substrate and the carbon nanotube array. The water is frozen between the substitute substrate and the carbon nanotube array. The substitute substrate is separated from the growing substrate to separate the bottom surface of the carbon nanotube array from the growing substrate. The ice is removed between the substitute substrate and the carbon nanotube array. A method for forming a carbon nanotube structure is also provided.

Abstract: A method for making carbon nanotube composite wire includes providing a carbon nanotube array. A carbon nanotube film is drawn from the carbon nanotube array using a tool. The carbon nanotube film is treated using a graphene solution to obtain a carbon nanotube composite wire.

Abstract: A thermoacoustic device includes a base, a first electrode and a second electrode, at least two supporting members, and a first carbon nanotube film. The base includes a surface. The first electrode and the second electrode are located on the surface of the base and spaced from each other. The at least two supporting members are spaced from each other and respectively located on surfaces of the first electrode and the second electrode. The at least two supporting members include a plurality of carbon nanotubes parallel with each other and substantially perpendicular to the surface of the base. The first carbon nanotube film is supported by the at least two supporting members and has a portion between the at least two supporting members suspended above the base. The supporting members electrically connect the first carbon nanotube film with the first electrode and the second electrode.

Abstract: A method for patterning a carbon nanotube array is disclosed. A carbon nanotube array is transferred onto a surface of a substitute substrate. The carbon nanotube array has a second surface adjacent to the substitute substrate and a first surface away from the substitute substrate. The carbon nanotube array is laser etched from the first surface to divide the carbon nanotube array into two areas which are a preserving area and a removing area. A carbon nanotube structure is drawn from the removing area.

Abstract: A method for transferring a carbon nanotube array is provided. A substitute substrate, a growing substrate, and a carbon nanotube array grown on the growing substrate are provided. The carbon nanotube array has a bottom surface adjacent to the growing substrate and a top surface away from the growing substrate. The substitute substrate is placed on the top surface of the carbon nanotube array and PVA solution is sandwiched between the substitute substrate and the carbon nanotube array. The PVA solution is frozen between the substitute substrate and the carbon nanotube array. The substitute substrate is separated from the growing substrate to separate the bottom surface of the carbon nanotube array from the growing substrate. The solvent in the solid PVA solution is removed and only PVA is left between the substitute substrate and the carbon nanotube array. A method for forming a carbon nanotube structure is also provided.

Abstract: A method for making carbon nanotube composite wire includes providing a carbon nanotube array. A carbon nanotube film is drawn from the carbon nanotube array using a tool. The carbon nanotube film is treated using a graphene solution to obtain a carbon nanotube composite wire.

Abstract: A method for transferring a carbon nanotube array is provided. A substitute substrate, a growing substrate, and a carbon nanotube array grown on the growing substrate are provided. The carbon nanotube array has a bottom surface adjacent to the growing substrate and a top surface away from the growing substrate. The substitute substrate is placed on the top surface of the carbon nanotube array and water is sandwiched between the substitute substrate and the carbon nanotube array. The water is frozen between the substitute substrate and the carbon nanotube array. The substitute substrate is separated from the growing substrate to separate the bottom surface of the carbon nanotube array from the growing substrate. The ice is removed between the substitute substrate and the carbon nanotube array. A method for forming a carbon nanotube structure is also provided.

Abstract: A method for transferring a carbon nanotube array is provided. A substitute substrate, a growing substrate, and a carbon nanotube array grown on the growing substrate are provided. The carbon nanotube array has a bottom surface adjacent to the growing substrate and a top surface away from the growing substrate. The substitute substrate is placed on the top surface of the carbon nanotube array and liquid medium is sandwiched between the substitute substrate and the carbon nanotube array. The liquid medium is solidified between the substitute substrate and the carbon nanotube array. The substitute substrate is separated from the growing substrate to separate the bottom surface of the carbon nanotube array from the growing substrate. The solid medium is removed between the substitute substrate and the carbon nanotube array. A method for forming a carbon nanotube structure is also provided.

Abstract: A method for transferring a carbon nanotube array includes providing a substitute substrate, a growing substrate, and a carbon nanotube array. The carbon nanotube array is grown on the growing substrate. A carbon nanotube structure can be drawn from the carbon nanotube array. The carbon nanotube structure includes carbon nanotube segments joined end-to-end. The carbon nanotube array is transferred from the growing substrate onto the substitute substrate. During transfer, the structural integrity of the carbon nanotube array is maintained.

Abstract: A method for making a carbon nanotube structure includes providing a substitute substrate, a growing substrate, and a carbon nanotube array, the carbon nanotube array grown on the growing substrate. A carbon nanotube structure can be drawn from the carbon nanotube array. The carbon nanotube structure includes carbon nanotube segments joined end-to-end. The carbon nanotube array is transferred from the growing substrate onto the substitute substrate. During transfer, structural integrity of the carbon nanotube array is maintained. The carbon nanotube structure is drawn from the carbon nanotube array transferred onto the substitute substrate.

Abstract: A method for making carbon nanotube array includes providing a carbon nanotube array formed on a surface of a substrate. The carbon nanotube array is stripped from the surface of the substrate. The carbon nanotube array is suspended in an inert gas environment or a vacuum environment. A temperature of the carbon nanotube array can be in a range from about 200° C. to about 2400° C. by heating the carbon nanotube array. In a state of heating the carbon nanotube array, a plurality of carbon nanotubes of the carbon nanotube array is selected and a carbon nanotube film is pulled out by a drawing tool.