PLS-LA320A Light homogenizer Introduction: In experiments such as photocatalytic reactions, gas-solid phase reactions, and solar cell testing, the non-uniformity of the xenon lamp light source output due to the fixed position of the photoelectrode, reaction solid powder, or solar panel within the range of the light spot illuminated by the xenon lamp light source can cause errors in experimental testing, especially in repetitive experiments. The PLS-LA320A homogenizer can be directly installed at the turning head of the xenon lamp light source. Reduce the unevenness of the original xenon lamp light source from 80% to below 17%, meeting the photochemical experiment requirements for uniform light. characteristic: The unevenness of the original xenon lamp light source has been reduced from 80% to below 17%, meeting the requirements for photochemical experiments with uniform light. 2. It has good physical and mechanical properties such as mechanical strength, low thermal expansion coefficient, and resistance to thermal deformation. 3. Made of all black aluminum alloy material, with precision adjustable threaded connections, ready to use and easy to operate Technical parameters: Spot diameter mm: 40, 100, 140 ,180 Illumination distance mm: 20110, 190, two hundred and seventy Number of data points: 5, 9, 12, seventeen Uneven RSD: Without homogenizer: 64.5% 80.19% 84.76% 62.54% Using a homogenizer: 13.03% 18.91% 18.28% 22.19%
Introduction: In experiments such as photocatalytic reactions, gas-solid phase reactions, and solar cell testing, the non-uniformity of the xenon lamp light source output due to the fixed position of the photoelectrode, reaction solid powder, or solar panel within the range of the light spot illuminated by the xenon lamp light source can cause errors in experimental testing, especially in repetitive experiments. The PLS-LA320A homogenizer can be directly installed at the turning head of the xenon lamp light source. Reduce the unevenness of the original xenon lamp light source from 80% to below 17%, meeting the photochemical experiment requirements for uniform light.
