Song Junfeng, Luo Xianshu, Kee Jack Sheng, Han Kyungsup, Li Chao, Park Mi Kyoung, Tu Xiaoguang, Zhang Huijuan, Fang Qing, Jia Lianxi, Yoon Yong-Jin, Liow Tsung-Yang, Yu Mingbin, Lo Guo-Qiang
Institute of Microelectronics, A*STAR (Agency for Science, Technology and Research), 11 Science Park Road, Science Park II, 117685 Singapore.
Opt Express. 2013 Jul 29;21(15):17931-40. doi: 10.1364/OE.21.017931.
We demonstrate a silicon-based optoelectronic integrated circuit (OEIC) for label-free bio/chemical sensing application. Such on-chip OEIC sensor system consists of optical grating couplers for vertical light coupling into silicon waveguides, a thermal-tunable microring as a tunable filter, an exposed microring as an optical label-free sensor, and a Ge photodetector for a direct electrical readout. Different from the conventional wavelength-scanning method, we adopt low-cost broadband ASE light source, together with the on-chip tunable filter to generate sliced light source. The effective refractive index change of the sensing microring induced by the sensing target is traced by scanning the supplied electrical power applied onto the tracing microring, and the detected electrical signal is read out by the Ge photodetector. For bulk refractive index sensing, we demonstrate using such OEIC sensing system with a sensitivity of ~15 mW/RIU and a detection limit of 3.9 μ-RIU, while for surface sensing of biotin-streptavidin, we obtain a surface mass sensitivity of S(m) = ~192 µW/ng·mm(-2) and a surface detection limit of 0.3 pg/mm(2). The presented OEIC sensing system is suitable for point-of-care applications.
我们展示了一种用于无标记生物/化学传感应用的硅基光电集成电路(OEIC)。这种片上OEIC传感器系统由用于将垂直光耦合到硅波导中的光栅耦合器、作为可调滤波器的热调谐微环、作为无光学标记传感器的暴露微环以及用于直接电读出的锗光电探测器组成。与传统的波长扫描方法不同,我们采用低成本的宽带ASE光源,与片上可调滤波器一起产生切片光源。通过扫描施加在跟踪微环上的供电功率来跟踪由传感目标引起的传感微环的有效折射率变化,并由锗光电探测器读出检测到的电信号。对于体折射率传感,我们展示了使用这种OEIC传感系统,灵敏度约为15 mW/RIU,检测限为3.9 μ-RIU,而对于生物素-链霉亲和素的表面传感,我们获得的表面质量灵敏度为S(m) = 约192 µW/ng·mm(-2),表面检测限为0.3 pg/mm(2)。所展示的OEIC传感系统适用于即时检测应用。
