LED lighting devices with enhanced heat dissipation

We claim: 1. A light for underwater use, comprising: a metal core printed circuit board (MCPCB) having a first side and a second side; one or more light emitting diodes (LED) disposed on the first side of the MCPCB; a window that is at least partially transparent disposed adjacent to the first side of the MCPCB and sealed with an elastomeric material to enclose the one or more LEDs; and a flange surrounding the MCPCB and window, the flange having one or more holes formed therein for allowing a liquid in which the light is immersed to contact the MCPCB; wherein a portion of the MCPCB extends outside the transparent window within a volume at least partially enclosed by the flange to exchange heat with the liquid. 2. The light of claim 1 , further including a heat sink element, wherein the MCPCB is thermally coupled to the heat sink element to direct heat from the MCPCB to the liquid. 3. The light of claim 1 , wherein the metal core of the MCPCB comprises one or more metals selected from the group of copper, aluminum, and anodized aluminum. 4. The light of claim 1 , wherein the MCPCB has a liquid contact surface on the front side of the MCPCB. 5. The light of claim 1 , wherein the at least partially transparent window and the flange form a disc-shaped planar window and a cylindrical periphery that is engaged by the MCPCB. 6. The light of claim 1 , further comprising a total internal reflection (TIR) lens surrounding the one or more LEDs. 7. The light of claim 1 , wherein the window comprises a silicone gel material. 8. The light of claim 7 , wherein a portion of the silicone gel material is positioned to be in contact with the liquid during operation so as to dissipate contaminants. 9. The light of claim 1 , further comprising a zeolite material to neutralize contaminants. 10. The light of claim 9 , wherein the contaminants are contaminants contributing to browning of the LEDs. 11. The light of claim 9 , wherein the contaminants are non-aqueous. 12. A lighting device for underwater use, comprising: a metal core printed circuit board (MCPCB) having a first side and a second side; one or more light emitting diodes (LED) disposed on the first side of the MCPCB; a window that is at least partially transparent disposed adjacent to the first side of the MCPCB and sealed to enclose the one or more LEDs; wherein a portion of the MCPCB extends outside the transparent window to exchange heat with a liquid in contact with the light; and wherein the one or more LEDs include: an LED for emitting light from the lighting device substantially in the visible portion of the electromagnetic (EM) spectrum; and an LED for emitting light from the lighting device substantially in the ultra violet (UV) portion of the EM spectrum. 13. A lighting device for underwater use, comprising: a metal core printed circuit board (MCPCB) having a first side and a second side; one or more light emitting diodes (LED) disposed on the first side of the MCPCB; a window that is at least partially transparent disposed adjacent to the first side of the MCPCB and sealed to enclose the one or more LEDs; wherein a portion of the MCPCB extends outside the transparent window to exchange heat with a liquid in contact with the light; and wherein the light includes a phosphor coating to generate light substantially in the visible portion of the EM spectrum with a secondary peak in the UV portion of the EM spectrum to inhibit bio-fouling. 14. An LED underwater light, comprising: a metal core printed circuit board (MCPCB) having a first side and a second side; one or more light emitting diodes (LED) disposed on the first side of the MCPCB; a window that is at least partially transparent disposed adjacent to the first side of the MCPCB and sealed to enclose the one or more LEDs; and a heat sink element in thermal contact with the MCPCB; wherein a portion of the heat sink element extends outside the transparent window to exchange heat with a liquid in which the LED is immersed. 15. An LED light, comprising: a metal core printed circuit board (MCPCB) having a first side and a second side; one or more light emitting diodes (LED) disposed on the first side of the MCPCB; a silicone gel window disposed adjacent to the first side of the MCPCB to enclose the one or more LEDs; and a flange surrounding the MCPCB and window, the flange having one or more holes formed therein for allowing a liquid in which the LED light is immersed to contact the MCPCB. 16. The LED light of claim 15 , wherein a portion of the MCPCB extends outside the silicone gel window to exchange heat with the liquid in contact with the LED light. 17. The LED light of claim 15 , further comprising an attachment mechanism coupled to the MCPCB to allow direct mounting of the MCPCB to a mounting surface. 18. The LED light of 17 , wherein the attachment mechanism is configured to attach the MCPCB to a boat hull. 19. The LED light of 17 , wherein the attachment mechanism is configured to attach the MCPCB to a pier, piling, or dock. 20. The LED light of claim 15 , wherein the attachment mechanism is configured to attach the MCPCB to a pool or aquarium surface.