This webinar showcased how ZP’s potentiostat and screen-printed electrodes bridge the gap between academic research, education, and commercialization. The presenter conducted three live experiments to demonstrate practical applications: Cyclic Voltammetry with Ferricyanide – A quick, reproducible experiment (completed in 20 seconds) highlighted the instrument’s ease of use for teaching core electrochemistry principles. Data was automatically uploaded to the cloud-based Djuli platform, where raw signals were analyzed and converted into concentration values, emphasizing the transition from theory to actionable results. Randles-Sevcik Equation Validation – Sequential scans at varying rates confirmed the linear relationship between peak current and scan rate, reinforcing diffusion-controlled processes. The experiment illustrated how ZP’s tools simplify complex concepts for students while maintaining research-grade precision. Real-World Caffeine Detection in Red Bull – A diluted sample was analyzed via square wave voltammetry, yielding a result (0.29 mg/g) matching the labeled concentration (0.3 mg/g). This demonstrated the system’s accuracy and reproducibility, key for both teaching and commercial assay development. The webinar underscored ZP’s mission to modernize electrochemistry education by integrating user-friendly hardware, cloud analytics, and QR code-driven workflows. By closing the gap between foundational research (TRL3) and market-ready applications (TRL9), ZP aims to inspire the next generation of scientists and entrepreneurs.