Company Filing History:
Years Active: 2016
Title: Neil Ebejer: Innovator in Electrolyte Pipetting Technology
Introduction
Neil Ebejer is a notable inventor based in St. Julians, GB. He has made significant contributions to the field of electrochemical analysis through his innovative designs. His work primarily focuses on the development of advanced pipetting technologies that enhance measurement accuracy and efficiency.
Latest Patents
Neil Ebejer holds a patent for a unique apparatus titled "Pipets containing electrolyte and electrodes." This invention comprises a pipet with first and second channels separated by a septum, each having a tip that is open. The pipet contains an electrolyte solution in both channels, with electrodes extending into the electrolyte. The apparatus includes means for applying a potential difference between the electrodes, measuring alternating current components, and applying oscillatory perturbations to control the pipet's position relative to a surface of interest. This innovative design aims to improve the precision of measurements in various scientific applications.
Career Highlights
Neil Ebejer is affiliated with the University of Warwick, where he continues to advance his research and development efforts. His work has garnered attention for its practical applications in laboratory settings, particularly in the fields of chemistry and biology. With a focus on enhancing measurement techniques, Ebejer's contributions are paving the way for more accurate scientific investigations.
Collaborations
Neil Ebejer collaborates with Patrick Robert Unwin, a fellow researcher who shares his passion for advancing electrochemical technologies. Their partnership has led to significant advancements in the understanding and application of pipetting techniques.
Conclusion
Neil Ebejer's innovative work in the development of electrolyte pipetting technology exemplifies the impact of creativity and research in scientific fields. His contributions continue to influence laboratory practices and enhance measurement accuracy.