Conductive composite stator unit for an electric motor of a vehicle

What is claimed is: 1 . A conductive composite stator unit for an electric motor of a vehicle, the stator unit comprising: a stator core comprising a body having a first core end and an opposing second core end defining a longitudinal axis, the body having an inner radial surface extending from the first core end to the second core end relative to the longitudinal axis, the inner radial surface having a plurality of inner walls inwardly extending from the first core end to the second core end defining open slots formed between respective inner walls from the first core end through the second core end; a plurality of conductive bars extending from the first core end to the second core end, each conductive bar comprising a central portion and an outer layer disposed thereabout for electrical current to flow therethrough relative to the longitudinal axis, each conductive bar comprising a straight portion disposed in one of the slots such that the respective conductive bar is in contact with the stator core, each straight portion having a first radial end at the first core end and a second radial end at the second core end, the first radial end extending from the stator core to a first turn portion and the second radial end extending from the stator core to a second turn portion, the outer layer comprising at least two copper-graphene (Cu-Gr) layers, each Cu-Gr layer comprising a copper layer and a graphene layer; and an insulator layer disposed about each of the plurality of conductive bars, wherein the outer layer further comprises a metal substrate having a first side and an opposite second side, the at least two Cu-Gr layers being a first Cu-Gr multilayer composite disposed on the first side of the metal substrate, the outer layer further comprising a second Cu-Gr multilayer composite disposed on the second side of the metal substrate. 2 . The stator unit of claim 1 wherein the metal substrate has a thickness of between 5 microns and 25 microns. 3 . The stator unit of claim 1 wherein the metal substrate comprises one of copper, aluminum, carbon steel and stainless steel. 4 . The stator unit of claim 1 wherein the second Cu-Gr multilayer composite comprises at least two Cu-Gr layers and comprises of copper and graphene, and wherein each Cu-Gr layer of the first and second Cu-Gr multilayers has a thickness of between 0.1 micron and 0.5 micron. 5 . The stator unit of claim 1 wherein each of the first and second Cu-Gr multilayer composites has a thickness of between 0.2 micron to 200 micron. 6 . The stator unit of claim 1 wherein each of the first and second Cu-Gr multilayer composites has a graphene volume fraction of 0.002% to 0.2%. 7 . The stator unit of claim 1 wherein each Cu-Gr layer has a graphene volume fraction of 0.002% to 0.2%. 8 . The stator unit of claim 1 wherein the central portion comprises one of copper and aluminum. 9 . The stator unit of claim 1 , wherein each Cu-Gr layer has a thickness of 0.2 microns. 10 . A conductive composite stator unit for an electric motor of a vehicle, the stator unit comprising: a stator core comprising a body having a first core end and an opposing second core end defining a longitudinal axis, the body having an inner radial surface extending from the first core end to the second core end relative to the longitudinal axis, the inner radial surface having a plurality of inner walls inwardly extending from the first core end to the second core end defining open slots formed between respective inner walls from the first core end through the second core end; a plurality of conductive bars extending from the first core end to the second core end, each conductive bar comprising a central portion and an outer layer disposed thereabout for electrical current to flow therethrough relative to the longitudinal axis, each conductive bar comprising a straight portion disposed in one of the slots such that the respective conductive bar is in contact with the stator core, each straight portion having a first radial end at the first core end and a second radial end at the second core end, the first radial end extending from the stator core to a first turn portion and the second radial end extending from the stator core to a second turn portion, the outer layer comprising at least two copper-graphene (Cu-Gr) layers, each Cu-Gr layer comprising a copper layer and a graphene layer, each Cu-Gr layer having a graphene volume fraction of 0.002% to 0.2%, the central portion comprising one of copper and aluminum; and an insulator layer disposed about each of the plurality of conductive bars, wherein the outer layer further comprises a metal substrate having a first side and an opposite second side, the at least two Cu-Gr layers being a first Cu-Gr multilayer composite disposed on the first side of the metal substrate, the outer layer further comprising a second Cu-Gr multilayer composite disposed on the second side of the metal substrate. 11 . The stator unit of claim 10 wherein the metal substrate has a thickness of between 5 microns and 25 microns. 12 . The stator unit of claim 10 wherein the metal substrate comprises one of copper, aluminum, carbon steel and stainless steel. 13 . The stator unit of claim 10 wherein the second Cu-Gr multilayer composite comprises at least two Cu-Gr layers and comprises copper and graphene, and wherein each Cu-Gr layer of the first and second Cu-Gr multilayers has a thickness of between 0.1 micron and 0.5 micron. 14 . The stator unit of claim 10 wherein each of the first and second Cu-Gr multilayer composites has a thickness of between 0.2 micron to 200 micron. 15 . The stator unit of claim 10 wherein each of the first and second Cu-Gr multilayer composites has a graphene volume fraction of 0.002% to 0.2%. 16 . The stator unit of claim 10 , wherein each Cu-Gr layer has a thickness of 0.2 microns. 17 . A conductive composite stator unit for an electric motor of a vehicle, the stator unit comprising: a stator core comprising a body having a first core end and an opposing second core end defining a longitudinal axis, the body having an inner radial surface extending from the first core end to the second core end relative to the longitudinal axis, the inner radial surface having a plurality of inner walls inwardly extending from the first core end to the second core end defining open slots formed between respective inner walls from the first core end through the second core end; a plurality of conductive bars extending from the first core end to the second core end, each conductive bar comprising a central portion and an outer layer disposed thereabout for electrical current to flow therethrough relative to the longitudinal axis, the central portion comprising one of copper and aluminum, each conductive bar comprising a straight portion disposed in one of the slots such that the respective conductive bar is in contact with the stator core, each straight portion having a first radial end at the first core end and a second radial end at the second core end, the first radial end extending from the stator core to a first turn portion and the second radial end extending from the stator core to a second turn portion, the outer layer comprising a metal substrate having a first side and an opposite second side, the outer layer comprising a first copper-graphene (Cu-Gr) multilayer composite disposed on the first side and a second Cu-Gr multilayer composite disposed on the second side of the first metal substrate; and an insulator layer disposed about each of the plurality of conductive bars.