$1,499.00
MedPstat 1.0 EC Kit is a cost-effective, handheld, and portable Electrochemical Analyzer (Potentiostat) designed for both learning and research applications. It offers a wide potential range of ±2.4 V and a current range up to 100 mA, ensuring accurate and reliable electrochemical measurements.
The kit includes a complete electrochemical setup, featuring:
It also comes with a high-quality Mini dummy cell for calibration and learning, and PC software for real-time data acquisition, analysis, and plotting. This makes the MedPstat 1.0 EC Kit the most affordable, precise, and versatile choice for electrochemistry education, training, and research applications.
Detailed Specifications:
| Weight | 1.4 kg |
|---|---|
| Dimensions | 340 × 300 × 90 cm |
| Select Model | MedPstat 1.0 (Basic) 30mA, MedPstat 1.0 (Advance) 100mA, MedPstat 1.0 (EC Kit) with Cell Setup |
The MedPstat 1.0 Advance potentiostat is extremely lightweight & high in precision and was selected for Microbial Fuel Cell Research by the Department of Materials Science and Engineering, Indian Institute of Technology Kanpur, India.
Since then it has been a huge part of the scientific community and has been utilized for testing and research by many other Universities!
The MedPStat 1.0 Advance was featured in Y. Budania, M. Chauhan, S. Mishra, S. Singh, Chemical Engineering Journal (2024) 156018.
Key Electrochemistry characterizations were tested and performed in this publication! Read all about it!
Welcome to this comprehensive application note, crafted to offer detailed guidance on utilizing the Dummy cell for potentiostat calibration, specifically focusing on the Linear Sweep Voltammetry (LSV) technique. This document aims to equip you with the necessary...
This application note provides a comprehensive manual for using the MedPstat device in Ferro/Ferri cyanide redox couple investigations. This Ferro/Ferri cyanide redox system is an excellent model for understanding cyclic voltammetry and electrochemical processes....
Chemical Engineering Journal (Impact Factor: 16.5)
N/NiO-ornated graphitic fiber-engrained micro-carbon beads: Innovative packed bed type capacitive electrodes for microbial fuel cells
The potentiostat (Autolab-M204, Metrohm, Netherlands and MedPstat 1.0 Advance, MTX Labs, India) was used for electrochemical anal ysis, and a modified version of an earlier protocol was followed [5,8].
DOI: https://doi.org/10.1016/j.cej.2024.156018
____________________________________________________________________________________________________________________
ROYAL SOCIETY OF CHEMISTRY (Impact Factor: 7.92)
CVD-Grown NiO-Carbon Nanofiber Decorated rGO Hybrids for High-Performance Electrochemical Hydrogen Storage: Role of Hierarchical Porous Structures
All electrochemical analyses were carried out using a computer-controlled potentiostat (Autolab-M204, Metrohm, Netherlands and MedPstat 1.0 Advance, MTX Labs, India), with data acquisition and processing through NOVA 2.0 software.
DOI: https://doi.org/10.1039/D5NR02443A
____________________________________________________________________________________________________________________
Journal of the Indian Chemical Society (Impact Factor: 3.4)
Tailoring the electrochemical properties of Ni-doped Co3O4 for Advanced supercapacitor electrodes
The MTX MedPStat 2.0 (MTX Industries, India) was used to conduct cyclic voltammetry (CV), galva nostatic charge–discharge (GCD), and Cyclic stability experiments over a potential window of 0.1 to 0.6 V
DOI: https://doi.org/10.1016/j.jics.2025.102170
The page you requested could not be found. Try refining your search, or use the navigation above to locate the post.
