Journal Articles

Y. Cho, J. Park, C. Lee,  S. Lee,  Bioelectronic Medicine 6 (2020)

H. Wang, J. Wang, X.Y. Thow, S. Lee, W.Y.X. Peh, K.A. Ng, T. He, N.V. Thakor, C. Lee,  Frontiers in Computational Neuroscience 10 July (2020)

S. Lee, H. Wang, W.Y.X. Peh, H. Tianyiyi, S.C. Yen, N.V. Thakor, C. Lee, Nano Energy 60, 449 (2019)

From flexible electronics technology in the era of IoT and artificial intelligence toward future implanted body sensor networks

S. Lee, Q. Shi, and C. Lee, APL Materials 7, 031302 (2019)

J. Wang, X.Y. Thow, H. Wang, S. Lee, K. Voges, N.V. Thakor, S.C. Yen, C. Lee, Advanced Healthcare Materials 7 1700987 (2018)

S Lee, H Wang, J Wang, Q Shi, SC Yen, NV Thakor, C Lee, Nano Energy 50 148 (2018)

S. Lee, W.Y.X Peh, J. Wang, F. Yang, J.S. Ho, N.V. Thakor, S. C. Yen, C. Lee,  Advanced Science 4 1700149 (2017)

Selective Stimulation and Neural Recording on Peripheral Nerves using Flexible Split Ring Electrodes

S. Lee, S. Sheshadri, Z. Xiang, I. Delgado-Martinez, N. Xue, T. Sun, N.V. Thakor, S.C. Yen, C. Lee, Sensors and Actuators B: Chemical 242 1165 (2017)

S. Lee, H. Wang, Q. Shi, L. Dhakar, J. Wang, N.V. Thakor, S.C. Yen, C. Lee, Nano Energy 33 1 (2017) (Selected as a front cover image)

Z. Xiang, S. Sheshadri, S. Lee, J. Wang, N. Xue, N.V. Thakor, S.C. Yen, C. Lee, Advanced Science 3 1500386 (2016)

Flexible Epineural Strip Electrode (FLESE) for Recording in Fine Nerves

S. Lee, S.C. Yen, S. Sheshadri, I. Delgado Martinez, N. Xue, Z. Xiang, N. V. Thakor and C. Lee, IEEE Trans. Biomed. Eng. 63 (3), 581-587 (2016)

Progress of Flexible Electronics in Neural Interfacing – A self-Adaptive Non-Invasive Neural Ribbon Electrode for Small Nerves Recording

Z. Xiang, S.C. Yen, S. Sheshadri, J. Wang, S. Lee, Y. H. Liu, L.D. Liao, N.V. Thakor, and C. Lee, Advanced Material 28, 22, 4472-4479 (2016)

Polymeric C-shaped Cuff Electrode for Recording of Peripheral Nerve Signal

N. Xue, T. Sun, W.M. Tsang, I. Delgado-Martinez, S. Lee, S. Sheshadri, Z. Xiang, S. Merugu, Y. Gu, S.C. Yen and N.V. Thakor, Sensors and Actuator B: Chemical 210, pp.640-648, (2015)

Physical Parameters to Enhance AC Magnetically-Induced Heating Power of Magnetic Nanoparticles for Hyperthermia in Nanomedicine

M. Jeun, S. Lee, Y. J. Kim, H.Y. Jo, K.H. Park, S.H. Paek, Y. Takemura, and S. Bae, IEEE Transactions on Nanotechnology, Vol.13, 3, 314 (2013)

Physical limits of pure superparamagnetic Fe3O4 nanoparticles for a local hyperthermia agent in nanomedicine

M. Jeun, S. Lee, J.K. Kang, A. Tomitaka, K.W. Kang, Y.I. Kim, Y. Takemura, K.W. Chung, J. Kwak, and S. Bae,  App. Phys. Lett. 100, 092406 (2012)

- Reported in Biological Physics Research USA, in March 15, 2012

Engineered Superparamagnetic Mn0.5Zn0.5Fe2O4 Nanoparticles as a Heat Shock Protein Induction Agent for Ocular Neuroprotection in Glaucoma

M. Jeun, J.W. Jeong, S.J. Moon, Y.J. Kim, S. Lee, S.H. Paek, K.W. Chung, K.H. Park, and S. Bae, Biomaterials 32, 387 (2011).

  - Reported in Nanowerk Spotlight USA, in October 25, 2010

  - Reported in E.connect NUS, Singapore, in January 2011

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