XERADEX® – Excimer Lamps made by Radium![Xeradex-Anwendung]()
Perfect for Industrial Surface Treatment
Radium TECH's XERADEX® series of excimer lamps are state-of-the-art xenon lamps that set new standards in surface activation through their pulsed-mode technology. With a wavelength of 172 nanometers and high efficiency, these lamps are suitable for a wide range of industrial applications, from semiconductor production to water treatment. Their technical precision and compact design enable easy integration into existing systems, making them a cost-effective alternative to chemical processes.
Made in Germany
Premium quality and often available from stock.
Technical Parameters
- Radiation output: Up to four times higher radiant output thanks to pulsed mode – compared to conventional VUV lamps.
- Efficiency: Approximately 40 percent of the electrical output is converted into 172 nm VUV radiation.
- Compactness: Often no additional cooling is required; nitrogen purging is sufficient.
- Lifespan: Up to 2,500 hours.
- Operating conditions: Ozone generation, preferably used in airtight enclosures; high voltage required with DBD ballasts.
Areas of Application
In Industry![LCD]()
- Breaking chemical bonds for surface activation
- Improving the adhesion of coatings
- Cleaning organic residues, e.g., in LCD production
- Excimer matting of acrylic coatings without the addition of matting agents
- Paint curing
- Semiconductor and OLED production
In Environmental Technology
- Water treatment
- Improving the performance of vacuum pumps
Advantages
✓ Immediate operational readiness: No warm-up phase required.
✓ Flexibility: Large-area applications and high processing speed.
✓ Efficiency: Highly efficient with monochromatic radiation (only 172 nm, no UV-A/B).
✓ Cost advantages: Compact design without external cooling reduces integration costs.
✓ Reliability: High switching stability and long service life.
✓ Sustainability: Reduces the use of chemical processes.
✓ Made in Germany: Quality and reliability, supported by Fraunhofer IFAM.