Cyclic Voltammetry (CV)

Researchers, do you face problems? like,

• Materials fail unexpectedly because of their unknown redox behaviour

• Energy devices suffer from sudden breakdown due to a narrow or unstable electrochemical stability window.

• Rechargeable systems lose efficiency because reactions become irreversible over repeated operation.

• Improper identification of oxidation and reduction potentials causes operational inefficiency and safety risks.

• Active materials degrade during repeated cycling, shortening device lifespan.

• Electrocatalysts exhibit low activity, leading to inefficient hydrogen production, oxygen evolution, or fuel cell performance.

Solution:

Cyclic Voltammetry (CV) provides a powerful solution by revealing redox behaviour, reaction reversibility, electron transfer kinetics, stability limits, and catalytic activity, allowing materials and devices to be optimized before real-world failure occurs.

Core Technical Parameters of CV

CV Capabilities with Admiral Instruments Squidstat Plus

Using the Squidstat series, advanced CV measurements can be performed with high precision and flexibility:

• Wide Potential Range: Suitable for aqueous and non-aqueous systems.

• High Current Sensitivity: From the low nA/pA range to high current applications, depending on the model.

• High Scan Rate Capability: Enables fast kinetic studies and the analysis of transient electrochemical behaviour.

• Low Noise & High Resolution: Ensures accurate peak identification and reliable kinetic analysis.

• IR Compensation: Minimizes solution resistance effects for accurate potential control.

• Software-Controlled Waveform Programming: Customizable potential sweeps, multi-segment CV, and automated cycling.

• Data Export & Advanced Analysis: Supports detailed post processing and modeling.

Send your samples to us for advanced Cyclic Voltammetry testing and receive detailed, actionable insights to accelerate your development process.