Mercury-Free Solid State Deep UV Light Sources
Transcription
Mercury-Free Solid State Deep UV Light Sources
Mercury-Free Solid State Deep UV Light Sources for Disinfection and Analysis Max Shatalov, Yuri Bilenko, Olga Bilenko, Alex Lunev, Igor Shturm, Michael S. Shur, Remis Gaska LED Devices • Variety of Emission Wavelengths (240-365 nm) • 0.5-1.5 mW at 20 mA CW Operation • > 100 mW Short Pulse Operation (<50 ns) Abstract Ultraviolet (UV) disinfection is an attractive alternative to traditional chemical processes, which require temperature and pH control and often create substantial amounts of disinfection by-products. Currently, low- and medium-pressure mercury vapor lamps are the only UV light sources used for water disinfection in municipal facilities and smaller scale industrial and residential air and water purification systems. Deep UV semiconductor light emitting diodes (LEDs) represent new class of UV light sources that are environmentally safe, easily reconfigurable, compact, robust, and inexpensive. Sensor Electronic Technology, Inc. has developed DUV LEDs and multiple chip LED lamps based on various hermetically sealed packaging platforms. UV LED lamps emitting at 280-285nm exhibit CW optical power over 50mW with dissipated power around 15W and an optical window of Ø0.5 inch. These mercury-free devices can be directly powered by low-voltage sources such as batteries or solar panels. The spectral power distribution of multiple chip LED lamps can be controlled by appropriate electronics, enabling new applications in water, air and food disinfection as well as in biomedical diagnostics. UV LED Lamps • Compact Multiple Chip LED Lamp • Passive and Active Cooling • Single or Multiple Wavelengths • > 50 mW CW Operation 280 nm UV LED Structure • Proprietary Fabrication Process • Patented Design of Active Layer • Advanced Packaging Continued on back www.s-et.com • +1 (803) 647-9757 • sales@s-et.com Mercury-Free Solid State Deep UV Light Sources for Disinfection and Analysis Applications UV LED Powered from 5 W Solar Panel Typical UV LED requires 0.12-0.13 W / chip of DC power. A number of these LEDs can be powered from solar panels enabling UV light sources for water disinfection in rural and remote areas with little or no access to infrastructure. Native Fluorescence Sensing with UV LED Excitation Feasibility studies were performed for E. coli in water (> 1000 CFU / 100 mL) using 280 nm DUV LED (~ 0.5 mW at 20 mA CW) excitation. Fluorescence spectra measurements showed strong peak at 350 nm attributed to E. coli. enabling development of practical UV LED based fluorescence sensors. Acknowledgments This material is based upon work supported by the National Science Foundation under Grant No. 0620525 and 0610828 and SC EPSCoR/IDeA SBIR Phase 0 Grants. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation or SC EPSCoR/IDeA. www.s-et.com • +1 (803) 647-9757 • sales@s-et.com