Our materials undergo extensive electrochemical analysis through a range of testing methods, including cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and assessments of cycling and rate performance.These techniques help in comprehensive understanding of the electrochemical properties of materials, helping to optimize their performance for various applications such as energy storage devices, sensorsand electrocatalysts.
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- Custom built chemical vapor deposition system (for CNT growth).
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- Custom built chemical vapor deposition system and muffle furnace (for nanomaterials growth).
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- Probe sonicator.
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- Vacuum over.
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- Roller mill.
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- Thermal evaporator.
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- Micro-Raman spectral imaging system.
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- Electrochemical workstation.
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- Blade coater.
- UV-Visible absorption spectrophotomete.
Synthesis, Characterization and Electrochemical testing
Our materials undergo extensive electrochemical analysis through a range of testing methods, including cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and assessments of cycling and rate performance.These techniques help in comprehensive understanding of the electrochemical properties of materials, helping to optimize their performance for various applications such as energy storage devices, sensorsand electrocatalysts.
Biologic VMP3, Multichannel Potentiostat
MTI Automatic Film Coater
CO2 supercritical point dryer
Custom built Solar Simulator
LABCONCO, FreeZone freeze dryer
Probe Sonicator
Custom built chemical vapor deposition system and Muffle Furness
Holmarc Solar Simulator
Muffle Furness and Custom-built Vacuum Oven
Programmable Ball Mill, BML-2
