Summary
Experimental Optical Physicist at Imperial College London. Google Scholar Profile
I studied for my PhD at the Optoelectronics Research Centre in the University of Southampton under the supervision of Nikitas Papasimakis, where my project investigated the use of photo-responsive substrates to optically control the the electronic properties of 2D materials such as graphene. My project involved the use of nanofabrication, Terahertz Time Domain Spectroscopy (THz-TDS) and numerical modelling.
Upon completion of my PhD I stayed within the Optoelectronics Research Centre undertook a post-doctoral position working alongside Vasilli Fedotov to research plasmonic effects at visible-wavelengths in nano-structured films.
I then moved to Queen Mary University of London to work within the group of Steffi Krause to develop a system to combine optical measurements of surface charge (Light Addressable Potentiometric Sensing) with scanning probe measurements of surface topology (Scanning Ion Conductance Microscopy) of living cells.
At Imperial College I am working within the group of Chris Rowlands to investigate the use of Diffuse Optical Tomogoraphy for the monitoring of bioreactors.
Publications
Journals
Gorecki J, Krause S, 2024, Numerical investigation of a graphene-on-semiconductor device for optical monitoring of cell electrophysiology, Iscience, Vol:27, ISSN:2589-0042
Jacques R, Zhou B, Marhuenda E, et al., 2023, Photoelectrochemical imaging of single cardiomyocytes and monitoring of their action potentials through contact force manipulation of organoids, Biosensors and Bioelectronics, Vol:223, ISSN:0956-5663, Pages:115024-115024
Gorecki J, Noual A, Mailis S, et al., 2022, Optically Defined Reconfigurable THz Metasurfaces using Graphene on Iron‐Doped Lithium Niobate, Advanced Photonics Research, Vol:3, ISSN:2699-9293
Woods JRC, Gorecki J, Bek R, et al., 2022, Coherent waveguide laser arrays in semiconductor quantum well membranes, Optics Express, Vol:30, Pages:32174-32174
Klokkou N, Gorecki J, Wilkinson JS, et al., 2022, Artificial neural networks for material parameter extraction in terahertz time-domain spectroscopy, Optics Express, Vol:30, Pages:15583-15583