CS150M Electrochemical Workstation Introduction: CS electrochemical workstation adopts fully floating design, with excellent stability and accuracy, advanced hardware and well-functioning software, providing excellent scientific research for scientific and technological workers involved in energy, materials, life science, environmental protection and other fields platform. Application (1) Energy materials (lithium-ion batteries, solar cells, fuel power cells and supercapacitors, etc.), advanced functional materials and performance research of sensors; (2) Electrochemical analysis research; (3) Electrosynthesis, electrodeposition (electroplating) ), anodizing, electrolysis and other reaction mechanisms; (4) corrosion behavior research and corrosion resistance evaluation of metal materials; (5) rapid evaluation of corrosion inhibitors, water quality stabilizers, coatings and cathodic protection efficiency. Features 1. Dual-channel correlation analyzer and dual-channel high-speed 16bit/high-precision 24bit AD converter 2. Built-in FRA frequency response analyzer, frequency range 10μHz ~1MHz 3. Amplifier with high bandwidth and high input impedance 4. Built-in FPGA DDS signal synthesizer 5. High power potentiostat/galvanostat/zero resistance ammeter 6. Voltage control range: ±10V, tank voltage is ±21V 7. Current control range: ±2.0A 8. Potential resolution: 10μV, current resolution: 1pA (extendable to 100fA) 9. Data Analysis Smoothing, integration and differentiation of voltammetry curves, calculating the peak current, peak potential and peak area of each redox peak; Three-parameter or four-parameter kinetic analysis of polarization curve, calculation of Tafel slope ba, bc, corrosion current density icorr, limiting diffusion current, polarization resistance Rp and corrosion rate, etc., power spectral density, noise can also be calculated from electrochemical noise spectrum Resistor Rn and spectral noise resistor Rsn(f). 10. Real-time storage CS Studio stores measurement data in real time, and even if the test is interrupted due to a power failure, the data before the interruption will be automatically saved. 11. Timing measurement The CS Studio test software has the function of timing measurement. When it is necessary to study the characteristics of the system over time, the test parameters and interval time can be set in advance, so that the instrument can be automatically timed measurement under unattended operation, which provides convenience for the experiment. Technical parameter: Potentiostatic control range: ±10V Potential control accuracy: 0.1% × full scale reading ±1mV Potential Sensitivity: 10μV(>100Hz), 3μV(<10Hz) Potential rise time: <1μS (<10mA), <10μS (<2A) Reference electrode input impedance: 1012Ω||20pF Slot voltage output: ±21V CV and LSV scanning speed: 0.001mV~10000V/s CA and CC pulse width: 0.0001~65000s SWV frequency: 0.001~100KHz AD data acquisition: 16bit@3.6MHz, 20bit@1KHz DA resolution: 16bit, setup time: 1μS Communication interface: USB2.0, RJ45 network port Dimensions (cm): 36.4(W)*32.0(D)*13.8(H) Constant current control range: ±2.0A Current control accuracy: 0.1% x full scale reading Current sensitivity: 1pA Current range: 2nA~2A, 10 levels in total Maximum output current: 2.0A Current sweep increment: 1mA @1A/mS Potential sweep potential increment: 0.076mV @1V/mS DPV and NPV pulse width: 0.0001~1000s Minimum potential increment of CV: 0.020mV Current and Potential Range: Automatically set Low-pass filter: 8-segment programmable Instrument weight: 7.6Kg
Introduction: CS electrochemical workstation adopts fully floating design, with excellent stability and accuracy, advanced hardware and well-functioning software, providing excellent scientific research for scientific and technological workers involved in energy, materials, life science, environmental protection and other fields platform. Application (1) Energy materials (lithium-ion batteries, solar cells, fuel power cells and supercapacitors, etc.), advanced functional materials and performance research of sensors; (2) Electrochemical analysis research; (3) Electrosynthesis, electrodeposition (electroplating) ), anodizing, electrolysis and other reaction mechanisms; (4) corrosion behavior research and corrosion resistance evaluation of metal materials; (5) rapid evaluation of corrosion inhibitors, water quality stabilizers, coatings and cathodic protection efficiency.
