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School of Electronic Engineering and Computer Science

Dr SaeJune Park

SaeJune

Senior Lecturer (Assoc. Prof.) & Head of THz Laboratory at QMUL Professor, by courtesy, at Ajou

Email: s.j.park@qmul.ac.uk
Room Number: ENG 255
Website: http://parklab.uk
Office Hours: By appointment

Profile

More info can be found on the Park Lab website: parklab.uk 

I am a Senior Lecturer (Associate Professor) in Terahertz Electronics & the Head of the Terahertz Laboratory at the School of Electronic Engineering and Computer Science, Queen Mary University of London (QMUL) and a Professor, by courtesy, in the Department of Physics at Ajou University. I have published over 37 journal papers, 18 of which as first/corresponding author, and have citations over 1,400 and an h-index over 17 according to Google Scholar.

My PhD programme back in South Korea focused on developing dielectric/biological sensors in the THz frequency region using THz time-domain spectroscopy. One of my papers reported microbial sensing for the first time with THz metasurface. I also investigated perovskite’s crystallisation kinetics using THz spectroscopy and studied a phase transition of perovskite film with an abrupt switch in the growth dimensionality.

Then, I moved to the UK and took up a Research Fellow position at the University of Leeds (2018) where I expanded my expertise in on-chip THz spectroscopy. On-chip THz spectroscopy enables the examination of samples/systems with highly confined in-plane THz waves. I demonstrated on-chip THz tuneable plasmonic devices based on a two-dimensional electron gas channel. I also reported a novel technique to measure the THz permittivity of unknown dielectric materials even for an extremely small amount of specimens using resonators integrated with on-chip waveguides.

In 2021, I joined QMUL to lead the Terahertz Laboratory. Since then, I have been trying to integrate my experience in free-space THz spectroscopy into on-chip THz devices. For example, I reported a significant enhancement in fingerprint detection of an extremely small amount of lactose using on-chip THz devices. A meta-atom probe integrated with the on-chip THz waveguide was also developed to detect colorectal cancer. I am continuing to work on developing free-space THz applications as well and recently reported a study on selective detection of microplastic particles in water using surface-functionalised THz microfluidic metasurface.

Teaching

  • SEM1 ECS644U/752P Microwave and Millimetrewave Electronics (Module organiser, 1)
  • SEM1 ECS431U Engineering Skills and Practice (Module co-organiser, 0.5)

 

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