CEL-PECX2000 Xenon lamp photoelectrochemical test system Introduction: CEL-PECX2000 xenon lamp photoelectrochemical test system can provide monochromatic light output under strong light, realize automatic replacement of filter, adjustment of light spot size, electromagnetic shutter, standard multi-functional photocell, automatic adjustment of sample cell level, and other functions. It adopts PLC industrial control, and touch screen software to uniformly control and adjust to achieve photoelectrochemical test and analysis. It is mainly used in the fields of photocatalysis PEC, electrochemical analysis, dye-sensitized cells, evaluation and analysis of the photoelectric properties of catalysts and materials. CEL-PECX2000 xenon lamp photoelectrochemical test system can be applied to the study of various photoelectrochemical reactions, such as the study of the phenomenon, law and application of the redox reaction of photo-excited molecules or ions in the excited state; Study the direct influence of light on the electrochemistry of electrode process and the measurement of conversion of light energy to electric energy and chemical energy; Photoelectric conversion measurement of photoelectrochemical cell; Photoelectrochemical synthesis and enrichment, etc. characteristic: 1. 300W high stability xenon lamp light source is adopted to realize full-band output and solve the problem of strong heat of xenon lamp; 2. Configure filter wheel to realize automatic replacement of filter; 3. The electrochemical cell can realize three-dimensional adjustment and horizontal automatic adjustment, 4. ITO electrode and glassy carbon electrode realize plug and play; 5. The whole system adopts PLC control; 6. The whole optical path is completely closed without any external interference; 7. Real-time monitoring of system temperature and reactor temperature. Technical parameters: Light source: 300W xenon lamp light source (CEL-PF300-T8) Optical path: the optical path is fully enclosed, and the sample room and optical path are integrated, without any light leakage point. Filter: 20 selectable wavelengths, free conversion. Standard automatic replacement filter( φ 25.4) 10 common filters: 365nm, 405nm, 420nm, 450nm, 475nm, 500nm, 520nm, 550nm, 600nm, 650nm Standard manual replacement filter, (M62) 10 special filters: 334nm, 350nm, 380nm, 435nm, 578nm, 630nm, 670nm, 700nm, 730nm, 765nm Monochromatic light: the light intensity is continuously adjustable, and the output energy of monochromatic light in the visible area is more than 300mw/cm2, Light outlet:<25mm, adjustable diaphragm: 1-20mm Temperature: dual-point temperature control, system temperature and reaction tank temperature, real-time monitoring screen display Shutter: automatic shutter Shutter is used to control the exposure time (0.1ms) Sample cell: ITO electrode, glassy carbon electrode realize plug and play, standard auxiliary electrode Sample table: three-dimensional adjustment, horizontal automatic adjustment 240mm Accessories: optical horizontal base plate, coupling joint, convergence lens, closed optical path sleeve, square light spot outlet Screen: 7-inch touch screen control, internal PLC control
Introduction: CEL-PECX2000 xenon lamp photoelectrochemical test system can provide monochromatic light output under strong light, realize automatic replacement of filter, adjustment of light spot size, electromagnetic shutter, standard multi-functional photocell, automatic adjustment of sample cell level, and other functions. It adopts PLC industrial control, and touch screen software to uniformly control and adjust to achieve photoelectrochemical test and analysis. It is mainly used in the fields of photocatalysis PEC, electrochemical analysis, dye-sensitized cells, evaluation and analysis of the photoelectric properties of catalysts and materials. CEL-PECX2000 xenon lamp photoelectrochemical test system can be applied to the study of various photoelectrochemical reactions, such as the study of the phenomenon, law and application of the redox reaction of photo-excited molecules or ions in the excited state; Study the direct influence of light on the electrochemistry of electrode process and the measurement of conversion of light energy to electric energy and chemical energy; Photoelectric conversion measurement of photoelectrochemical cell; Photoelectrochemical synthesis and enrichment, etc.