Status:
ReviewerMember since: 2022
Organization: National Research Centre
Huge and useful outcome results can't be performed without using such equipment.
Application Area: Corrosion and electrochemical
"The device is easy to use for every lab member. We are using this equipment for experimental work related to solving industrial problems, carrying out research papers and for experimental work of Ph.D. and Master dissertations. All of the above jobs are performed in an easy and viable way."
Status:
ReviewerMember since: 2022
Organization: Centre of Research
Des excellentes resultats Excellent results
Application Area:Analysis of toxic molecules
"Rapidité de reponse efficacité et sensibilité très élevée vis-à-vis les molécules cibles. Utilisation simple Speed of response, efficiency and very high sensitivity to target molecules. Simple use"
The 273A is the most widely sold potentiostat in the long history of potentiostats. In fact, it has been recognized as the benchmark against which all other potentiostats have been measured. With its 100 V compliance and 1 Amp maximum current, the Model 273A is capable of accurately controlling the potential in virtually any electrochemical cell. This high compliance voltage ensures accurate potential control in high-resistance cells, such as those with dilute electrolytes or non-aqueous solvents. The 273A can be used with our high-sensitivity FRD units to perform EIS up to 100 kHz. The 273A has a well-established reputation for reliability and ruggedness. Its unique electronic design provides the user with extremely stable current and voltage measurements.
The Model 273A has long been the standard for performing corrosion measurements and general electrochemistry. It is the most referenced potentiostat in scientific literature. With the high-current capability of the 273A, it is able to address applications in battery, fuel cell, and super capacitor areas. For plating and electrosynthesis, the 273A is an excellent choice. Its stable 1 Amp current output allows the user to accurately control his electrochemical process.