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2 Channel EIS Potentiostat
, Double Channel Bipotentiostat
, Bipotentiostat CS2350M
2 Channel EIS Potentiostat , Double Channel Bipotentiostat CS2350M With Impedance
2-Channel Potentiostat Double Channel Bipotentiostat CS2350M With Impedance
BiPotentiostat/BiGalvanostat with built-in EIS model CS2350M has two sets of built-in independent potentiostat /galvanostat. So it equals that you have 2 sets potentiostat in one instrument. Full floating module and electrical isolation design guarantee each channel is totally independent, which ensures accurate data. Each set provides full electrochemical techniques including EIS. Experiments can be conducted simultaneously in each channel. Besides this, the two channels can jointly complete experiment of two-working electrode system such as RRDE and Hydrogen diffusion. CS2350M bipotentiostat is the real double-channel potentiostat. It uses Ethernet connection. EIS module is included in both channels.
Applications
(1) Electrosythesis, electrodeposition (electroplating), anodic oxidation, electrolysis
(2) Electrocatalysis such as Oxygen reduction reaction (ORR), OER, HER, CO2 reduction.
(3) Li-ion battery, solar cell, fuel cell, supercapacitor, advanced function materials, sensor, etc
(4) Corrosion behavior of metals, and anti-corrosion evaluation
(5) Fast evaluation of inhibitor, water quality stabilizer, coating, and cathodic protection efficiency.
Rotating Ring-Disk Electrode (RRDE)
Oxidation/reduction reaction (ORR) study: while measuring the polarization curve of disk electrode in the main channel, apply a constant polarization potential on the ring electrode, and thus detect the intermediate products on the disk electrode. RRDE test becomes the typical method for ORR study. CS2350M can be connected to any RRDE equipment.
Hydrogen Diffusion Test (HDT)
CS2350M bipotentiostat is combined with H-cells. By measuring current of cathode hydrogen charging and hydrogen atoms anode oxidation, it can further calculate the diffusion coefficient of hydrogen atoms in metal and hydrogen flux.
Faradaic efficiency test
In electrocatalysis, the Faradaic efficiency is measured to evaluate the performance of the catalyst. The cable connection is shown in below picture. A constant current will be applied on the disk and occur OER and produce oxygen. A constant voltage is applied on the ring and it occurs ORR and consume oxygen. The Faradaic efficiency can be calculated based on disk current and ring current.
Specifications
| Specifications |
| Support 2-, 3- or 4-electrode system |
Interface: Ethernet |
| Potential control range: Primary Channel: ±10V second Channel: ±10V |
Current control range: ±1A in each channel |
| Potential control accuracy: 0.1%×full range±1mV |
Current control accuracy: 0.1%×full range |
| Potential resolution: 10μV (>100Hz), 3μV (<10Hz) |
Current sensitivity:1pA |
| Rise time: <1μS (<10mA), <10μS (<2A) |
Reference electrode input impedance:1012Ω||20pF |
| Current range: 2nA~2A, 10 ranges |
Compliance voltage: ±21V |
| Maximum current output: ±1A in each channel |
CV and LSV scan rate: 0.001mV~10,000V/s |
| CA and CC pulse width: 0.0001~65,000s |
Current increment during scan: 1mA@1A/ms |
| Potential increment during scan: 0.076mV@1V/ms |
SWV frequency: 0.001~100 kHz |
| DPV and NPV pulse width: 0.0001~1000s |
AD data acquisition:16bit@1 MHz,20bit@1 kHz |
| DA Resolution:16bit, setup time:1μs |
Minimum potential increment in CV: 0.075mV |
| IMP frequency: 10μHz~1MHz |
Low-pass filters: Covering 8-decade |
| Potential and current range: Automatic |
Weight / Measurements: 6.5kg,36 x 30 x16cm |
| Operating System: Windows 7/8/10/11 |
| Electrochemical Impedance Spectroscopy (EIS) |
| Signal generator |
| Frequency range:10μHz~1MHz |
AC amplitude:1mV~2500mV |
| DC Bias: -10~+10V |
Output impedance:50Ω |
| Waveform: sine wave, triangular wave and square wave |
Wave distortion:<1% |
| Scanning mode: logarithmic/linear, increase/decrease |
| Signal analyzer |
| Integral time: minimum:10ms or the longest time of a cycle |
Maximum:106 cycles or 105s |
| Measurement delay:0~105s |
| DC offset compensation |
| Potential automatic compensation range: -10V~+10V |
Current compensation range: -1A~+1A |
| Bandwidth: 8-decade frequency range, automatic and manual setting |
Techniques in each channel
Stable polarization
- Open Circuit Potential (OCP)
- Potentiostatic (I-T curve)
- Galvanostatic
- Potentiodynamic (Tafel plot)
- Galvanodynamic (DGP)
Transient Polarization
- Multi Potential Steps
- Multi Current Steps
- Potential Stair-Step (VSTEP)
- Galvanic Stair-Step (ISTEP)
Chrono Method
- Chronopotentiometry (CP)
- Chronoamperametry (CA)
- Chronocaulometry (CC)
Voltammetry
- Linear Sweep Voltammetry (LSV)
- Cylic Voltammetry (CV)
- Staircase Voltammetry (SCV)
- Square Wave Voltammetry (SWV)
- Differential Pulse Voltammetry (DPV)
- Normal Pulse Voltammetry (NPV)#
- Differential Normal Pulse Voltammetry (DNPV)
- AC Voltammetry (ACV)
- 2nd harmonic AC Voltammetry (SHACV)
- Fourier Transform AC Voltammetry (FTACV)
Electrochemical Impedance Spectroscopy (EIS)
- EIS vs Frequency (Nyquist, Bode)
- Galvanostatic EIS
- EIS vs Potential (IMPE)(Mott-Schottky)
- EIS vs Time (IMPT)
- Galvanostatic EIS vs Time
Corrosion Measurements
- Cyclic polarization curve (CPP)
- Linear polarization curve (LPR)
- Electrochemical Potentiokinetic Reactivation (EPR)
- Electrochemical Noise (EN)
- Zero resistance Ammeter (ZRA)
Battery test
- Battery Charge and Discharge
- Galvanostatic Charge and Discharge (GCD)
- Potentiostatic Charging and Discharging (PCD)
- Potentiostatic Intermittent Titration Technique (PITT)
- Galvanostatic Intermittent Titration Technique (GITT)
Bipotentiostat
- Hydrogen Diffusion Test (HDT)
- Rotating Ring Disk Electrode(RRDE)
- Faradaic efficiencyTest(FE)
Amperometric
- Differential Pulse Amperometry (DPA)
- Double Differential Pulse Amperometry (DDPA)
- Triple Pulse Amperometry (TPA)
- Integrated Pulse Amperometric Detection (IPAD)
Stripping Voltammetry
- Potentiostatic Stripping
- Linear Stripping
- Staircase Stripping
- Square Wave Stripping
- Differential Pulse Voltammetry Stripping
- Normal Pulse Voltammetry Stripping
- Differential Normal Pulse Voltammetry Stripping
Extensions
- Data Logger
- Electrochemical Stripping/ Deposition
- Bulk Eletrolysis with Coulometry (BE)
- Rs Measurement
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