System for harvesting water wave energy

What is claimed is: 1. A generator for harvesting energy from water in motion, comprising: (a) a sheet of a hydrophobic material, having a first side and an opposite second side, that is triboelectrically more negative than water; (b) a first electrode sheet disposed on the second side of the sheet of a hydrophobic material; and (c) a second electrode sheet disposed on the second side of the sheet of a hydrophobic material and spaced apart from the first electrode sheet, so that movement of the water across the first side induces an electrical potential imbalance between the first electrode sheet and the second electrode sheet. 2. The generator of claim 1 , wherein the sheet of a hydrophobic material comprises a fluorinated ethylene propylene (FEP) thin film. 3. The generator of claim 1 , wherein the sheet of a hydrophobic material has a surface texture that includes a plurality of nanoscale features extending from the first side. 4. The generator of claim 3 , wherein the nanoscale features comprise vertically aligned nanowires. 5. The generator of claim 4 , wherein the vertically aligned nanowires have an average diameter of about 100 nm and an average length of about 2 μm. 6. The generator of claim 4 , wherein the vertically aligned nanowires comprise ion etched nanowires. 7. The generator of claim 1 , wherein the first electrode sheet and the second electrode sheet comprise a conductive metal. 8. A generator for harvesting energy from water in motion, comprising: (a) a confining frame (b) at least one contact mode triboelectric nanogenerator disposed within the confining frame; (c) an inertial member disposed within the confining frame, the inertial member having at least one degree of freedom of movement and disposed to be able to impart force on the at least one contact mode triboelectric nanogenerator when the confining frame is moved during wave action, thereby causing the triboelectric generator to generate and electrical current. 9. The generator of claim 8 , wherein the contact mode triboelectric nanogenerator comprises: (a) a flexible housing defining an internal volume therein, the flexible housing having a relaxed state and a compressed state; (b) at least one generator unit disposed within the internal volume, the first generator unit including: (i) an electrode sheet; (ii) a dielectric sheet that is characterized by including a material that is ranked at a first position on a triboelectric series, the dielectric sheet having a first side and an opposite second side, the second side affixed to the electrode sheet, the dielectric sheet having a plurality of vertically aligned nanowires that extend outwardly from the first side of the dielectric sheet; (iii) a planar conductive sheet that is characterized by including a material that is ranked at a second position on a triboelectric series that is different from the first position, wherein the planar conductive sheet and the dielectric sheet a supported by the housing so that the planar sheet is in contact with the dielectric sheet when the housing is in the compressed state and so that so that the planar conductive sheet is not in contact with the dielectric sheet when the housing is in the relaxed state, thereby generating a charge imbalance between the electrode sheet and the planar conductive sheet as a result of a triboelectric charge build up on the dielectric sheet as a result of the dielectric sheet coming into and out of contact with the planar conductive sheet. 10. The generator of claim 9 , wherein the dielectric sheet and the vertically aligned nanowires comprise polytetrafluoroethylene. 11. The generator of claim 9 , wherein the electrode sheet comprises copper. 12. The generator of claim 9 , wherein the planar conductive sheet comprises aluminum. 13. The generator of claim 9 , wherein the planar conductive sheet includes a plurality of nanoscale dimples extending inwardly from the surface thereof. 14. The generator of claim 8 , wherein the flexible housing comprises: (a) two curved flexible plastic members facing each other so as to define an open volume therebetween, each flexible plastic member having two spaced apart vertical walls extending inwardly therefrom, a lateral sheet coupled to the end of each of the vertical walls; and (b) a rigid plastic sheet spaced between the two flexible plastic members, wherein a generator unit is placed between each lateral sheet and the rigid plastic sheet so that the flexible housing supports two different generator units. 15. The generator of claim 14 , wherein the flexible plastic members comprise polyethylene terephthalate and wherein the rigid plastic sheet comprises acrylic. 16. The generator of claim 8 , wherein the confining frame is hermetically sealed so as to seal the at least one contact mode triboelectric nanogenerator and the inertial member therein. 17. A plurality of generators of the type recited in claim 8 coupled to a web.