报告时间:8月9日 周四 上午9:30
报告地点:实验室一楼会议室
报告人:吴琳 博士 (新加坡A*Star Institute of High Performance Computing)
报告题目: Computational nanoplasmonics/nanophotonics in sensing and quantum technologies
报告摘要:
Nanoplasmonics/nanophotonics defines the study of optical phenomena in the nanoscale vicinity of metal or dielectric surfaces. It is on the verge of developing into a promising technology platform for next-generation information technology, energy, high-density data storage, life/environment sciences and security. Research in this area has accelerated at an immense rate in the last couple of years, thanks to the advances in computation, nanofabrication and characterization to investigate light-fields of subwavelength dimensions. The nanoplasmonics/nanophotonics group in IHPC operates at the forefront of computational nanoplasmonics/nanophotonics research, and is collaborating with a few key groups both across Singapore and internationally. In this talk, a few collaborative works will be presented, e.g., quantum plasmon resonances [1–2], an on-chip electrical plasmon sources based on tunnel junctions [3–4], and plasmonic sensing from numerical modelling to biological testing [5–6]. Last but not least, the emerging application of nanoplasmonics/nanophotonics in quantum technologies will be highlighted.
[1] “Quantum plasmon resonances controlled by molecular tunnel junctions.” Science 343, 1496 (2014).
[2] ACS Nano 7, 707, (2013); RSC Adv. 6, 70884–70894 (2016).
[3] “On-chip molecular electronic plasmon sources based on self-assembled monolayer tunnel junctions.” Nat. Photon. 10, 274–280 (2016).
[4] Opt. Express 24 (10), 10663-10674 (2016).
[5] “Highly sensitive graphene biosensors based on surface plasmon resonance.” Opt. Express 18(14), 14395 (2010).
[6] J. Opt. Soc. Am. B 29, 521 (2012); IEEE Photon. J. 4, 26, (2012); Lab Chip 13, 2405 (2013); Sens. Actuator B-Chem 186, 205 (2013); ACS Catal. 4 (12), 4269 (2014); Plasmonics 9 (4), 825 (2014); Lab Chip, 15(1), 253 (2015); Anal. Chim. Acta 883, 22 (2015); Nanoscale 8, 8008–8016 (2016); Anal. Chem. 88 (23), 11924–11930 (2016); J. Mater. Chem. C, 4, 9897–9904 (2016); Phys. Chem. Chem. Phys. 18, 19324–19335 (2016); Int. J. Nanomedicine 12, 2307–2314 (2017); ACS Sensors, 2 (5), 635–640 (2017).
编辑时间:2018-08-08 11:11:34