High UV efficiency lighting

Background

In conventional fluorescent lighting, electric current in the gas phase excites mercury or other ion vapor which produces a broad range of ultraviolet (UV) light, in addition to visible light. The UV light in turn causes a phosphor coating on the inside of the bulb to glow. Combination of converted and directly emitted visible light makes up the total output. Conventional fluorescent lighting systems may use multiple phosphors that coat the inside wall of a fluorescent tube. However, much of the UV radiation created by the discharge is not used because it is not absorbed by the phosphors, and is filtered or reflected back into the tube, which makes the devices less efficient and/or more costly to manufacture. Multiple rare-earth-metal-based phosphors emitting complementary colours are generally needed to approximate white light.

There is therefore a need to provide a new lighting material that makes full use of the UV light and that can generate a desired quality of white light in an energy-efficient and economically viable way.

Advantages

• Full use of UV light (broad absorption) to create visible light with higher efficiency
• Significantly less expensive material
• Specialty lighting for health and agriculture applications
• Potential for mercury free lamps

Potential applications

• Substantially increase the efficiency of florescent lighting by increasing their UV efficiency (full absorption)
• Eliminate the use of toxic materials in florescent lights
• Tunable to any colour
• Suitable for speciality lighting applications