Implementation of Software Features for Electrochemical Impedance Spectroscopy Analysis in Industrial Electrochemical Assets

Pulsenics will collaborate closely in this project by partnering with the intern to enhance their software platform, specifically targeting real-time Electrochemical Impedance Spectroscopy (EIS) analysis. Pulsenics faces challenges with their current EIS software, which lacks the efficiency and diagnostic accuracy needed for effective real-time monitoring, resulting in increased downtime and less-than-optimal asset management. This research aims to develop a modular solution that addresses these shortcomings by improving diagnostic accuracy and reducing maintenance interruptions.
Pulsenics is an OEM specializing in EIS solutions for R&D, production QA/QC, and real-time monitoring of industrial-scale electrochemical systems. Their integrated hardware and software platforms support high-performance measurement, data analysis, and system control across a broad range of applications—including electrolyzers, fuel cells, batteries, electrochemical water treatment, and metallurgy. Pulsenics’ technology is used globally to enable innovation, scalability, and reliability in the transition to electrochemical-based systems.
As industries rapidly scale green technologies, there is a critical need to shift from R&D-centric workflows to scalable, production-ready operations. This transition demands faster iteration cycles to develop and validate new technologies, and robust, automated QA/QC systems that derisk sales while maintaining high throughput. This project will accelerate development, streamline QA/QC, and help deploy production-scale electrochemical systems with greater confidence and less manual intervention.

Faculty Supervisor:

Wai Tung Ng

Student:

Partner:

Pulsenics

Discipline:

Computer science

Sector:

Professional, scientific and technical services

University:

University of Toronto

Program: