Triboelectric energy harvester

What is claimed is: 1 . A triboelectric energy harvester comprising: an electrode; a non-conductor disposed on the electrode; a first conductor disposed on the non-conductor; and a second conductor frictionally contacting the first conductor, wherein the frictional contact between the first and second conductors creates triboelectric energy. 2 . The triboelectric energy harvester of claim 1 , further comprising a substrate disposed on the second conductor. 3 . The triboelectric energy harvester of claim 1 , further comprising current collection lines coupled to the electrode, the second conductor, and an energy storage device. 4 . The triboelectric energy harvester of claim 3 , further comprising rectifier diodes coupled to the current collection line between the electrode and the energy storage, and between the second conductor and the energy storage. 5 . A triboelectric energy harvester comprising: a lower electrode; a lower non-conductor disposed on the lower electrode; a lower conductor disposed on the lower non-conductor; an upper conductor opposing the lower conductor to be in contact or be separated from the lower conductor in a repeated manner; an upper non-conductor disposed on the upper conductor; and an upper electrode disposed on the upper non-conductor, wherein a combination of contact and subsequent separation between the lower and upper conductors creates triboelectric energy. 6 . The triboelectric energy harvester of claim 5 , further comprising current collection lines coupled to the lower electrode, the upper electrode, and an energy storage. 7 . The triboelectric energy harvester of claim 6 , further comprising rectifier diodes coupled to the current collection line between the lower electrode and the energy storage, and between the upper electrode and the energy storage. 8 . A triboelectric energy harvester, comprising: a first plurality of layers comprising alternating conductor and dielectric layers; a second plurality of layers comprising alternating conductor and dielectric layers, the first plurality of layers having a first surface in frictional contact with a first surface of the second plurality of layers; and an energy storage device electrically coupled between the first plurality of layers and the second plurality of layers, wherein the frictional contact creates electric current that flows into the energy storage device. 9 . The triboelectric energy harvester of claim 8 , wherein the first surface of the first plurality of layers and the first surface of the second plurality of layers are conductors. 10 . The triboelectric energy harvester of claim 9 , wherein a second surface of the first plurality of layers and a second surface of the second plurality of layers are conductors. 11 . The triboelectric energy harvester of claim 9 , wherein a second surface of the first plurality of layers is dielectric and a second surface of the second plurality of layers is a conductor. 12 . A triboelectric generator, comprising: a first stack of layers comprising a first non-conductor layer disposed between a first conductor layer and a first electrode layer; a second stack of layers comprising a second non-conductor layer disposed between a second electrode layer and a second conductor layer, wherein triboelectric charging is created when the first conductor layer frictionally contacts the second conductor layer. 13 . The triboelectric energy harvester of claim 1 , wherein the first and second conductors are made of different materials. 14 . The triboelectric energy harvester of claim 5 , wherein the lower and upper conductors are made of different materials. 15 . The triboelectric energy harvester of claim 9 , wherein the first surface of the first plurality of layers and the first surface of the second plurality of layers are made of different materials. 16 . The triboelectric energy generator of claim 12 , wherein the first conductor layer and the second conductor layer are made of different materials.