Jang Ah Kim is currently a Research Associate in the Hamlyn Centre, Imperial College London. Her research interests are towards utilisation of novel micro/nano fabrication techniques, such as two-photon polymerisation (2PP), to develop surface-enhanced Raman spectroscopy (SERS) structures, micro-optics, photonic crystals, and plasmonic structures on optical fibres for diverse biomedical diagnostic/micro-manipulation applications.
She graduated from Sungkyunkwan University, South Korea with BS in Mechanical Engineering in 2011 and then completed her PhD in Nanotechnology from same university in 2017. During her PhD, she worked on development of chemical vapour deposition (CVD)-grown graphene-based fibre-optic surface plasmon resonance (SPR) sensors for biochemical detection and development of fiber-optic contact force sensors for remote and in situ monitoring of physical contact between tissue and cardiac ablation catheter. She joined the Hamlyn Centre for Robotic Surgery in April 2017 and her research mainly focusses on development of miniature fibre-optic sensors for minimally invasive surgeries (MIS)/interventions and photonic/plasmonic point-of-care (POC) sensors for rapid diagnosis of diseases (e.g. bacteria detection for infection screening, etc.). She is also working to discover and apply the interaction between plasmon excitation and bacteria to develop a new micro-manipulation device for biomedical applications.
Kim JA, Wales DJ, Yang G-Z, 2020, Optical spectroscopy for in vivo medical diagnosis—a review of the state of the art and future perspectives, Progress in Biomedical Engineering, Vol:2, Pages:042001-042001
et al., 2020, Smart Sensing for Surgery From Tethered Devices to Wearables and Implantables, Ieee Systems Man and Cybernetics Magazine, Vol:6, ISSN:2380-1298, Pages:39-48
et al., 2020, Fiber-optic SERS probes fabricated using two-photon polymerization for rapid detection of bacteria, Advanced Optical Materials, Vol:8, ISSN:2195-1071, Pages:1-12
et al., 2018, Fabrication and optoelectronic characterisation of lanthanide-and metal-ion-doped DNA thin films, Journal of Physics D-applied Physics, Vol:51, ISSN:0022-3727
et al., 2019, Towards development of fibre-optic surface enhanced Raman spectroscopy probes using 2-photon polymerisation for rapid detection of bacteria, Plasmonics in Biology and Medicine XVI, SPIE, ISSN:0277-786X