Abstract: A short wave ultraviolet light machine is configured to disrupt microbes. The machine has a housing having an outer shell and a hollow inner portion. A solar panel is joined to the outer shell and electrically coupled to a battery charge controller within the hollow inner portion. A lithium polymer energy storage device is arranged within the hollow inner portion and is electrically coupled to the battery charge controller. A short-wave ultraviolet light emitting diode module is arranged on the outer shell and electrically coupled to the battery charge controller with an electronic controller module. A proximity sensor module is arranged on the outer shell and electrically coupled to the electronic controller module. The proximity sensor detects a surface and engages the short-wave ultraviolet light emitting diode module to emit a short wave ultraviolet light that disrupts microbes proximate the short wave ultraviolet light emitting diode machine.

Abstract: A light emitting diode lighting system has a base arranged as a cylinder further comprising a pair of arcuate extensions having a pair of arcuate openings therebetween. Electrical tracks are joined to the base. A semiconductor substrate is arranged around an out surface of the base and connected to the electrical tracks. A polymeric housing is joined to the base and housing the electrical tracks. A germanium layer and a silicon layer are joined to the semiconductor substrate. An outer layer is joined to the germanium layer and the silicon layer and configured to dissipate heat from the germanium layer and the silicon layer. An outer module is joined to the outer layer, and configured to mount the light emitting diode lighting system into an external housing.