Are you looking for a particular application? Are you looking for a method explanation? Check out here all the application notes from OrigaLys team.
For the Experts
Advanced, it requires strong knowledge
Intermediate
Elementary, it requires basic knowledge
For the beginners
Learn how to use the CV 4 limits method thanks to a simple example: Ferri/Ferrate solution.
Learn how to use the Advanced CV method thanks to a simple example: Ferri/Ferrate solution.
Learn how to use the Interactive CV method thanks to a simple example: Ferri/Ferrate solution.
Learn how to use Interactive Amperometry method thanks to a simple example: Ferri/Ferrate solution.
Learn how to use the Staircase method thanks to a simple example: Ferri/Ferrate solution.
Learn how to use the Chrono Amperometry Expert method thanks to a simple example: Ferri/Ferrate solution.
Learn how to use the Chrono Potentiometry Expert method thanks to a capacitor 35V, 470µF.
Learn the Levich equation and its impact on the current in Voltammetry tests if we use a Rotating Disk Electrode (RDE).
Learn the Pot. Dynamic EIS method if we use a Rotating Disk Electrode (RDE).
Learn here how to activate ta Glassy Carbon working electrode
Learn here how to compensate the resistances of the cables to get more accurate data.
Learn here how to analyze the integration on voltametric curves.
Learn here how to use the foot switch to start and stop the rotation of the RDE from OrigaLys: OrigaTrod.
Learn how to use the Expert Charge and Discharge Cycle method, thanks to a standard battery: Ni-Cd 1.2 V, 600 mAh.
Learn how to use the Expert Charge and Discharge Cycle method, thanks to a standard battery: Ni-Cd 1.2 V, 600 mAh.
This Application Note describes about a very useful method for testing batteries in long or short term. The power of battery will be kept constant by imposing current and measuring potential during time. Changing the potential and current of the battery, will be investigated.
This Application Note describes how we can analyze behavior of solar cell with photovoltaic method and accessories : LED optical bench and OCP/Impedance methods.
This Application Note describes how to analyze solar cells with IV Characterization method and LED light sources.
This Application Note describes how to use the OrigDiff to measure two additionnal voltages (REF3 & REF4) in a cell.
This Application Note describes a test made on solar cell with LED light source.
Learn how to use the Polarization for Corrosion method and Tafel post-treatment, thanks to a standard sample: Iron nail.
Learn how to use the General Corrosion method to get Rp value, thanks to a standard sample: Iron nail.
Learn how to check your electrode cables to be sure it's fully operational.
Learn how to understand what a noisy signal is and how to avoid it by easy tricks and also by software parameters.
Learn how to create different configuration of sequences: different methods, same methods with same parameters, manual loops, same methods with different parameters, and so on.
It is highly important to stabilize the working electrode to get the most accurate result possible. Learn how to do it in this application note.
With "custom type" window, it is possible to customize the axes of a curve and so create your own profile of curve, your own "type" of curve. Learn how to do it with the application note.
Learn how Corrosion can be analyzed with potentiostat. We propose some experiments in order to be more familiar with corrosion tests: Pitting, Galvanic, General, Passivation, etc.
With this Practical work, we explain how the students can trace the intensity-potential curve of water (i=f(E)).
With this Practical work, we explain how the students can trace the intensity-potential curve of Ferri/Ferrate Cyanide (i=f(E)).
With this Practical work, we explain the principles of the Galvanic Corrosion. Then, we propose an example with Steel and Copper.
With this Practical work, we explain the principles of the Pitting Corrosion. Then, we propose an example with Stainless Steel.
With this Practical work, we explain the principles of the Flade method. Then, we propose an example with Iron.
Do you need more information? Contact us +33 9 54 17 56 03 or fill the form