Jonathan is a Senior Research Fellow in the School of Electronics and Computer Science, with cross-disciplinary expertise (BSc Biomedical Science, PhD Optoelectronics). His work is focused on using integrated optical technology and microfluidics for biomedical and marine sensing applications most notably microflow cytometry. Jonathan was a deputy technical lead for Automation on the Hampshire and Isle of Wight 网络彩票APP下载_澳客彩票网-官方游戏, mass testing programme
Projects:
- Deployable microflow cytometer for impedance and fluorescence based analysis of marine phytoplankton and microplastics. https://doi.org/10.1021/acssensors.4c01353
- Microflow cytometer for the analysis of pigment content of commercial algae crops.
- Microflow cytometer for the analysis of extracellular vesicle sized particles using multiangle scattering analysis https://doi.org/10.1039/C9LC01182J
- "Build your own Algae Farm" interactive game for science communication and outreach.
- Antimicrobial blue light in urinary catheters. https://doi.org/10.3389/fmicb.2022.995200
Jonathan has a broad skill base in optical theory and design, microfabrication, microfluidics, electronics and experimental biology. JB has been awarded ?16K as PI from HEFCE (Zepler Institute Stimulus Fund) for research into anitmicrobial light guiding technology in biomedical devices. He has also been the researcher co-I on a ?20K Higher Education Innovation Fund projects from HEFCE (Zepler Institute Stimulus fund). In 2019 JB was funded to attend the British Council/Newton fund, UK-India Researcher Links Multi-disciplinary Workshop on TB Diagnostics and AMR. JB was a co-organiser and chair of the Workshop on Light Technologies for Algae Growth 2021.