The effect of LED phototherapy on blood lactate level in the muscle was studied. A 450cm2 large red and near infrared
LED pad with its irradiance of 10mW/cm2 was applied for 10 minutes to brachial muscle and quadriceps muscle of thigh
to the participants before and after the Taekwondo contest. Blood samples from the participants were taken at 5 minutes
after the competition and 10 minutes after the recovery. The test results showed that the LED therapy (LEDT) before and
after the competition had a significant effect on the decrease of blood lactate level of the participants.
Photoluminescenc eand electroluminescence of CaSiN2:Eu materials were investigted to develop a new phosphor for thin film electroluminescence (TFEL) device applications. Ca3N2 and Si3N4 powders were mixed to form CaSiN2 hostmaterials and Eu was added as the luminescent center. The mixed powermatrials were cold pressed under the pressure of 1 Kg/cm2 to make pellets, and fired at 1400 degrees Celsius for 2 hours under N2H2 envrionemtn. Th ex-ry diffraction(CRD) patterns of synthesizd materals wer well matched with CaSiN2 of joint committee for powder diffraction standards (JCPDS) csrad. When illuminated by ultravilet rays, th enew phosphors emitted very bright red ligh of peak wav lenegth centered at 620 nm. Th TFEL devices with CaSiN2:Eu phosphor layser swre grown by sputter depositonof CaSiN2:Eu target. Red light emission was observed when the peak amplitude of the applied voltge exceeded 116 V.l The luminance was shown to increase sharply withth increase of the applied voltage. The maximum luminance was 1.62 Cd/m2 at the applied peak voltage of 276 V. The red emission from CaSiN2:Eu TFEL device seems to result from electronic transition of Eu3+ ions.The emission spectra of TFEl devices matchwell withth ephotoluminescence spectra of CaSiN2:Ey powders. The new devices structure and fabrication processes for the iimprovement of emission intenityof CaSiN2:Eu TFEl devices ar under investigation.