BPCL-SECL15 screen-printed electrode - electrochemiluminescence analyzer Introduction: The BPCL-SECL15 screen-printed electrode-electrochemiluminescence analyzer is a specialized electrochemiluminescence detection platform designed for screen-printed electrodes. It utilizes a high-sensitivity photomultiplier tube (PMT) as the chemiluminescence detector and is equipped with a high-performance potentiostat. The analyzer is configured with over ten conventional electrochemical methods, including cyclic voltammetry. It adopts an FPC electrode connector and is transported to the detection chamber via an electric platform, offering excellent operational convenience. The software allows for the setting of multiple parameters, and the electrochemical and chemiluminescence data are synchronously controlled, collected, and saved. It is a compact, research-grade electrochemiluminescence analyzer. Instrument application: The analysis targets include: immunity, drugs, amino acids, polypeptides, proteins, nucleic acids, etc Related fields include: life sciences, disease detection, new drug development, environmental analysis, food safety, etc Technical parameters: 1. Ultra-weak light detection system (1) Detector: Downward-looking photomultiplier tube, photon pulse measurement. (2) Detection limit: It can provide a counting rate of 10,000-20,000 per second for a weak light source of 10^-13W. (3) Long-term stability of the instrument: RSD ≤ 1.5%, tested using a standard light source. (4) Wavelength range: 300-650 nm (optional 230-920nm) (5) Instrument counting analysis range: covering five orders of magnitude (6) Sampling interval: 0.01-10000 ms, adjustable by software.. (7) High-voltage output: negative (0-1500) V, current output: 2 mA. The negative high-voltage output value can be set through software, and it also features a high-voltage feedback function, enabling automatic software regulation with an accuracy of 0.1V. 2. Potentiostat (1) Electrode: 2, 3, 4 electrode structure (2) Maximum potential range: ±10V (3) Cell voltage: ±13V (4) Potential rise time: 0.5μs (5) Potential scanning range: ±10V (6) Potential resolution: 0.0015% of the potential scanning range (7) Potential measurement accuracy: ±0.5mV (8) Measurement current range: ±10pA~±0.25A, 9 ranges (9) Measurement current resolution: 0.0015% of the current range (10) Current measurement accuracy: 1% of the current range (11) Input offset current: <10pA (12) Maximum sampling rate: 500,000 data points per second (13) Maximum data length: 6,000,000 data points (14) CV and LSV scan rates: 0.001V/s to 10,000V/s (15) CV and LSV potential increment: 0.000305V (16) Minimum sampling interval for CV and LSV: 0.001V (17) CA and CC pulse width: 0.00001~1000sec (18) Minimum sampling interval for CA and CC: 10μs (19) DPV and NPV pulse width: 0.00001~1000sec (20) SWV frequency: 1Hz~100kHz (21) Minimum sampling interval of i-t: 10μs (22) Self-check: Internal resistance self-check of 9 gear positions (23) Measurement methods: Cyclic voltammetry (CV), Linear sweep voltammetry (LSV), Step chronoamperometry (SCV), Chronoamperometry (CA), Chronocoulometry (CC), Differential pulse voltammetry (DPV), Normal pulse voltammetry (NPV), Differential normal pulse voltammetry (DNPV), Square wave voltammetry (SWV), Current-time curve (i-t), Controlled potential electrolysis coulometry (BE), Open circuit potential-time curve (OCPT), Multi-potential step method (STEP) 3. Printed electrodes
BPCL-SECL15 screen-printed electrode - electrochemiluminescence analyzer Introduction: The BPCL-SECL15 screen-printed electrode-electrochemiluminescence analyzer is a specialized electrochemiluminescence detection platform designed for screen-printed electrodes. It utilizes a high-sensitivity photomultiplier tube (PMT) as the chemiluminescence detector and is equipped with a high-performance potentiostat. The analyzer is configured with over ten conventional electrochemical methods, including cyclic voltammetry. It adopts an FPC electrode connector and is transported to the detection chamber via an electric platform, offering excellent operational convenience. The software allows for the setting of multiple parameters, and the electrochemical and chemiluminescence data are synchronously controlled, collected, and saved. It is a compact, research-grade electrochemiluminescence analyzer.
