Thin film transistor with carbon nanotubes

What is claimed is: 1. A thin film transistor comprising: an insulating substrate; a gate electrode, the gate electrode located on the insulating substrate; a gate insulating layer, the gate insulating layer located on the gate electrode; a carbon nanotube structure, the carbon nanotube structure located on the gate insulating layer; wherein the carbon nanotube structure comprises a plurality of carbon nanotubes, each carbon nanotube of the plurality of carbon nanotubes consists of a first metallic carbon nanotube segment, a second metallic carbon nanotube segment and a semiconducting carbon nanotube segment between the first metallic carbon nanotube segment and the second metallic carbon nanotube segment, the first metallic carbon nanotube segment, the second metallic carbon nanotube segment and the semiconducting carbon nanotube segment are connected and form an integrated structure, the first metallic carbon nanotube segment is used as a source electrode, the second metallic carbon nanotube segment is used as a drain electrode, the semiconducting carbon nanotube segment is used as a channel. 2. The thin film transistor as claimed in claim 1 , further comprises a first metal electrode and a second metal electrode, the first metal electrode is located on the first metallic carbon nanotube segment, the second metal electrode is located on the second metallic carbon nanotube segment, the first metal electrode is used as a source electrode lead, the second metal electrode is used as a drain electrode lead. 3. The thin film transistor as claimed in claim 1 , wherein the plurality of carbon nanotubes are combined with each other by Van der Waals force and extend along a same direction. 4. The thin film transistor as claimed in claim 1 , wherein the first metallic carbon nanotube segment and the second metallic carbon nanotube segment and the semiconducting carbon nanotube segment in each carbon nanotube are connected by a Schottky barrier. 5. The thin film transistor as claimed in claim 1 , wherein the carbon nanotube is a single-walled carbon nanotube, and a diameter of the single-walled carbon nanotube is less than 2 nanometers. 6. The thin film transistor as claimed in claim 5 , wherein the diameter of the single-walled carbon nanotube is in a range of 1.2 nanometers to 1.5 nanometers. 7. A thin film transistor comprising: an insulating substrate; a carbon nanotube structure, the carbon nanotube structure located on the insulating substrate; an insulating layer, the insulating layer located on the carbon nanotube structure; a gate electrode, the gate electrode located on the insulating layer and insulated from the carbon nanotube structure; wherein the carbon nanotube structure comprises a plurality of carbon nanotubes, each carbon nanotube of the plurality of carbon nanotubes consists of a first metallic carbon nanotube segment, a second metallic carbon nanotube segment and a semiconducting carbon nanotube segment between the first metallic carbon nanotube segment and the second metallic carbon nanotube segment, the first metallic carbon nanotube segment, the second metallic carbon nanotube segment and the semiconducting carbon nanotube segment are connected and form an integrated structure, the first metallic carbon nanotube segment is used as a source electrode, the second metallic carbon nanotube segment is used as a drain electrode, the semiconducting carbon nanotube segment is used as a channel. 8. The thin film transistor as claimed in claim 7 , further comprises a first metal electrode and a second metal electrode, the first metal electrode is located on the first metallic carbon nanotube segment, the second metal electrode is located on the second metallic carbon nanotube segment, the first metal electrode is used as a source electrode lead, the second metal electrode is used as a drain electrode lead. 9. The thin film transistor as claimed in claim 7 , wherein the plurality of carbon nanotubes are combined with each other by Van der Waals force and extend along a same direction. 10. The thin film transistor as claimed in claim 7 , wherein the carbon nanotube is a single-walled carbon nanotube, the diameter of the single-walled carbon nanotube is less than 2 nanometers. 11. The thin film transistor as claimed in claim 10 , wherein the diameter of the single-walled carbon nanotube is in a range of 1.2 nanometers to 1.5 nanometers. 12. A thin film transistor comprising: a carbon nanotube structure, the carbon nanotube structure comprises a carbon nanotube, the carbon nanotube comprises a first metallic carbon nanotube segment, a second metallic carbon nanotube segment and one semiconducting carbon nanotube segment between the first metallic carbon nanotube segment and the second metallic carbon nanotube segment, the first metallic carbon nanotube segment, the second metallic carbon nanotube segment and the semiconducting carbon nanotube segment are connected and form an integrated structure, the first metallic carbon nanotube segment is used as a source electrode, the second metallic carbon nanotube segment is used as a drain electrode, the semiconducting carbon nanotube segment is used as a channel, the carbon nanotube structure comprises a plurality of carbon nanotubes, the plurality of carbon nanotubes are combined with each other by Van der Waals force and extend along a same direction, the first metallic carbon nanotube segment and the second metallic carbon nanotube segment have a same length in the plurality of carbon nanotubes, and the semiconducting carbon nanotube segments have a same length in the plurality of carbon nanotubes. 13. The thin film transistor as claimed in claim 12 , further comprises a first metal electrode and a second electrode, the first metal electrode is located on the first metallic carbon nanotube segment, the second metal electrode is located on the second metallic carbon nanotube segment, the first metal electrode is used as a source electrode, the second metal electrode is used as a drain electrode. 14. The thin film transistor as claimed in claim 12 , wherein the carbon nanotube is a single-walled carbon nanotube, a diameter of the single-walled carbon nanotube is less than 2 nanometers. 15. The thin film transistor as claimed in claim 12 , wherein a diameter of the single-walled carbon nanotube is in a range of 1.2 nanometers to 1.5 nanometers. 16. The thin film transistor as claimed in claim 1 , wherein the semiconducting carbon nanotube segment is grown from the first metallic carbon nanotube segment, and the second metallic carbon nanotube segment is grown from the semiconducting carbon nanotube segment by applying an electric field.