Fibrous triboelectric generator and electronic stimulator using the fibrous triboelectric generator and clothes using the electronic stimulator

What is claimed is: 1. A fibrous triboelectric generator comprising: a first textile; a first electrode layer formed on a surface of the first textile; a friction layer formed on a surface of the first electrode layer and configured to be electrically charged by friction, wherein a surface of the friction layer comprises first spike-shaped linear protrusions extending along a first direction from the surface of the friction layer and second spike-shaped linear protrusions extending along a second direction that is different from the first direction; and a second electrode layer configured to generate friction with the friction layer, wherein the friction layer consists of a nonconductive polymer. 2. The fibrous triboelectric generator of claim 1 , wherein the first spike-shaped linear protrusions are spaced apart from one another. 3. The fibrous triboelectric generator of claim 2 , wherein the first spike-shaped linear protrusions are formed with a space around each respective spike-shaped linear protrusion. 4. The fibrous triboelectric generator of claim 1 , wherein the nonconductive polymer consists of any one or any combination of any two or more of polydimethylsiloxane (PDMS), polytetrafluoroethylene (PTFE), and polyvinylidene fluoride (PVDF). 5. The fibrous triboelectric generator of claim 1 further comprising a second textile disposed on a side facing the first textile, wherein the second electrode layer is positioned between the first textile and the second textile, and formed on a surface of the second textile. 6. The fibrous triboelectric generator of claim 5 , wherein the second electrode layer is substantially planar to the second textile. 7. A fibrous triboelectric generator comprising: a first textile; a first electrode layer formed on a surface of the first textile; a friction layer formed on a surface of the first electrode layer and configured to be electrically charged by friction, wherein a surface of the friction layer comprises first spike-shaped linear protrusions extending along a first direction from the surface of the friction layer; and a second electrode layer configured to generate friction with the friction layer, wherein the friction layer comprises: a metal oxide forming the first spike-shaped protrusions extending from the first electrode layer; and a coating layer coating a surface of the metal oxide and the surface of the first electrode layer. 8. The fibrous triboelectric generator of claim 7 , wherein the metal oxide comprises zinc oxide (ZnO). 9. The fibrous triboelectric generator of claim 7 , wherein the coating layer consists of a nonconductive polymer. 10. The fibrous triboelectric generator of claim 9 , wherein the nonconductive polymer consists of any one or any combination of any two or more of polydimethylsiloxane (PDMS), polytetrafluoroethylene (PTFE), and polyvinylidene fluoride (PVDF). 11. An electronic stimulator using triboelectricity, the electronic stimulator comprising: a first textile; a first electrode layer formed on a surface of the first textile; a friction layer formed on a surface of the first electrode layer, wherein a surface of the friction layer comprises first spike-shaped linear protrusions; a second electrode layer configured to create friction in combination with the friction layer to charge the friction layer; a first pad electrically connected with the first electrode layer; and a second pad electrically connected with the second electrode layer, wherein the friction layer comprises: a metal oxide forming the first spike-shaped linear protrusions extending from the first electrode layer; and a coating layer coating a surface of the metal oxide and the surface of the first electrode layer. 12. The electronic stimulator of claim 11 , wherein the friction layer consists of a nonconductive polymer. 13. The electronic stimulator of claim 11 , further comprising a second textile disposed on a side facing the first textile, wherein the second electrode layer is positioned between the first textile and the second textile and formed on a surface of the second textile. 14. The electronic stimulator of claim 11 , wherein the first spike-shaped linear protrusions extend in a first direction, and the surface of the friction layer further comprises: second spike-shaped linear protrusions extending along a second direction that is different from the first direction. 15. A piece of clothing to generate triboelectricity, the piece of clothing comprising: a first textile and a second textile facing each other; a first electrode layer formed on a surface of the first textile and configured to be electrically charged by friction; a friction layer coating the first electrode layer, wherein a surface of the friction layer comprises first spike-shaped linear protrusions; and a second electrode layer formed on a surface of the second textile and configured to create friction in combination with the friction layer to charge the friction layer, wherein the first spike-shaped linear protrusions extend in a first direction, and the surface of the friction layer further comprises second spike-shaped linear protrusions extending along a second direction that is different from the first direction. 16. The piece of clothing of claim 15 , further comprising: a first pad electrically connected with the first electrode layer; and a second pad electrically connected with the second electrode layer.