Zimmer and Peacock is hosting a webinar and live demo for our colleagues at Imperial College, showcasing a new type of instrument for educators, researchers, and entrepreneurs in sensor and biosensor technologies.
We are offering two sessions on the same day to make it as convenient as possible for you to attend.
The two adjacent videos provide a quick introduction to the technology, but please register for the webinar by clicking the button below.
The SIA potentiostat integrates modern tech, including smartphones, QR codes and Cloud to perform electrochemical techniques including amperometry, open circuit potential, electrochemical impedance spectroscopy, linear sweep voltammetry cyclic voltammetry and square wave voltammetry .
Here are the key points covered:
Educational Training: The potential stat is designed to be used in undergraduate labs, allowing students to gain hands-on experience with modern electrochemical techniques. This practical knowledge can be carried forward into their research projects, PhD work, and postdoctoral studies.
Seamless Transition to Research and Commercialization: The same technology and hardware can be used across different stages of a student’s academic and professional journey. This continuity ensures that students are well-versed with the tools they may use in real-world applications, including in startups and spin-offs.
Modern and Relevant Technology: By integrating QR codes, smartphone connectivity and cloud-based data processing, the potential stat remains relevant and up-to-date with current technological trends. This helps in making the learning process more engaging and relatable for students.
Ease of Use: The use of QR codes to control the potential stat simplifies the process of switching between different electrochemical techniques. This user-friendly approach enhances the learning experience by making complex procedures more accessible.
Commercialization Potential: The platform is not just limited to educational and research purposes but also facilitates the development of minimal viable products. Students trained on this technology can leverage their skills to develop commercial applications.
Cloud Connectivity: Data collected from experiments can be sent to the cloud for further processing and analysis. This feature supports advanced data handling and ensures that students can work with cutting-edge analytical tools.
Practical Demonstration: The potential stat can demonstrate a variety of analytical methods, such as measuring total antioxidative capacity, glucose levels, pH, and more. This practical approach helps in understanding the real-world applications of electrochemical techniques.