BRIEF INTEREST

I am in my forth year of Ph.D. studies funded by Royal Thai Government scholarship (DPST) and Diamond Science and Technology CDT, under the supervision of Prof. Julie Macpherson, Warwick Electrochemistry and Interfaces Group, University of Warwick, UK. My research interest focuses on the field of electrocatalysis and electrosynthesis aiming at exploring the electrochemical performance of the diamond catalysts and providing inexpensive and sustainable ways to generate hydrogen peroxide.

EDUCATION 2021 – Present Ph.D. in Chemistry, University of Warwick, UK 2019 – 2020 M.Sc. in Analytical Sciences and Instrumentation (Distinction), University of Warwick, UK 2014 – 2018 B.Sc. in Chemistry (First-class honours), Prince of Songkla University, Thailand

ACTIVITIES AND ACHIEVEMENTS

Jan 2024 Participated in Electrochemistry Gordon Research Conference and Seminar, Ventura, USA

Nov2023 Received Highly Commended Award of the Prestigious ATS Education Ceremony, London, UK

July 2023 Awarded the best poster prize at UK Diamond Conference, University of Warwick, UK

June 2023 Volunteered to be a demonstrator on Warwick Undergraduate Open Days, University of Warwick, UK

July 2022 Participated in De Beers Diamond Conference, University of Warwick, UK

Teaching & Lab Demonstration CH915 Principles and Techniques in Qualitative and Quantitative Analysis Experiment i: Titration & ICP Experiment ii: IR and Raman Spectroscopy Experiment iii: NMR and CMC Determination Experiment i: Design Own Experiment CH911 Chromatography and Separation Science Experiment i: TLC+Columns & GPC Experiment CH3F1 Core Physical Chemistry Laboratory Experiment i: Dynamic Electrochemistry

PUBLICATIONS

1. Kaewsen, J. J. Tully, J. V. Macpherson, Electrochemical production of hydrogen peroxide by two-electron water oxidation using boron-doped diamond electrodes, In Preparation
2. J. Tully*, I. M. Terrero Rodríguez*, G. F. Wood, M. Kaewsen, T. P. Mollart, Y. Han, J. V. Macpherson, Optimisation of boron-doped diamond electrode geometry to tailor sp² bonded carbon content for enhanced electrochemical ozone production, In Preparation

Manisa Kaewsen

Warwick Electrochemistry & Interfaces
University of Warwick
CV4 7AL

Email: manisa.kaewsen@warwick.ac.uk