表面增益拉曼散射(surface-enhanced Raman spectroscopy, SERS)具備極高的辨識度、敏感度,在生醫感測的應用上有很大的潛力。在本研究中,我們以InGaN量子井及金奈米顆粒,製作一種新式的SERS感測結構,應用在細胞培養液裡的葡萄糖感測。我們發現,當金的厚度從40 nm增加到 50 nm、量子井的數量從 0 增加到 3 層後,葡萄糖的SERS強度可提升100倍以上。此結果顯示,量子井可以在磊晶片表面侷限高濃度的共振電子,在雷射的激發下,這些高濃度的電子會與金表面的自由電子共振,因而提升SERS強度。此氮化物SERS感測晶片,可以在細胞培養液裡量測到濃度低達0.5 g/L (2.8x10-3 M)的葡萄糖,在0.5 - 5 g/L ( 2.8x10-2 - 2.8x10-3 M)的濃度範圍裡,葡萄糖的濃度與SERS強度成正比。;Surface-enhanced Raman spectroscopy (SERS) has become a powerful tool in material and life sciences due to its inherent characteristics, such as fingerprint recognition capabilities and high sensitivity. This work presents a new SERS biosensor substrate design, using InGaN quantum wells (QWs) and gold nanoparticles (Au NPs) for glucose detection in a chemically defined (CD) solution. The SERS intensity of glucose can be enhanced by two orders of magnitude when the Au thickness for NPs was increased from 40 nm to 50 nm, and QW number from 0 to 3. The QWs embedded at shallow depths from the surface allow the SERS substrate to capture electrons and pump them (through laser excitation) to the hot spots, increasing the SERS intensity. This QW-based SERS biosensor can detect the glucose in CD with the concentration down to 0.5 g/L (2.8×〖10〗^(-3) M) and exhibit the linear dynamic response in the range of 0.5-5 g/L (2.8×〖10〗^(-2)-2.8×〖10〗^(-3) M).
