Staff Profile

Internationally seasoned and resourceful Analytical Chemist with a wealth of experience in chemical analysis, experimental design, method validation/verification, method transfer, and documentation. I bring a combination of professional expertise and industry insight to the educational realm, enhancing the learning process by developing technical skills, incorporating industry perspectives into courses, and staying actively attuned to trends and opportunities within the field. A dynamic leader capable of effectively managing technical personnel and training teams in research procedures, fostering a culture of mentorship and achievement.

Throughout my career spanning over eighteen years, I have collaborated with analytical chemist teams on advanced research projects within GLP regulated environments. My comprehensive understanding of overall laboratory functionality, maintenance, and project activities, considering resource availability and timelines, has contributed to successful project outcomes. I excel in written and oral communication, delivering clear and concise scientific research findings to team members and stakeholders.

Demonstrating flexibility in teaching style and work schedules, I am dedicated to promoting student success and engagement in the learning process. My passion for teaching, coupled with a leadership style that encourages collaboration and innovation, has been instrumental in achieving positive outcomes.

Possessing a proven ability to manage multiple analytical services with meticulous attention to detail, I am adept at designing and implementing procedures that enhance efficiency and accuracy in fast-paced environments.

• Articles

  • Purvis G, Siller L, Crosskey A, Vincent J, Wills C, Sheriff J, Xavier C, Telling J. Generation of long-chain fatty acids by hydrogen-driven bicarbonate reduction in ancient alkaline hydrothermal vents. Communications Earth & Environment 2024, 5, 30.
  • Stone J, Edgar JO, Rutherford J, Gill-Olivas B, Tranter M, Gould JA, Xavier CM, Telling J. Flash heating boosts the potential for mechanochemical energy sources for subglacial ecosystems. Frontiers in Geochemistry 2023, 1, 1180893.