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