Bonanno Lisa M, Delouise Lisa A
Department of Dermatology and Biomedical Engineering, University of Rochester Medical Center, 601 Elmwood Avenue, Rochester, NY 14642 (USA).
Adv Funct Mater. 2010 Jan 19;20(4):573-578. doi: 10.1002/adfm.200901694.
The incorporation of a chemo-responsive hydrogel into a 1D photonic porous silicon (PSi) transducer is demonstrated. A versatile hydrogel backbone is designed via the synthesis of an amine-functionalized polyacrylamide copolymer where further amine-specific biochemical reactions can enable control of cross-links between copolymer chains based on complementary target-probe systems. As an initial demonstration, the incorporation of disulfide chemistry to control cross-linking of this hydrogel system within a PSi Bragg mirror sensor is reported. Direct optical monitoring of a characteristic peak in the white light reflectivity spectrum of the incorporated PSi Bragg mirror facilitates real-time detection of the hydrogel dissolution in response to the target analyte (reducing agent) over a timescale of minutes. The hybrid sensor response characteristics are shown to systematically depend on hydrogel cross-linking density and applied target analyte concentration. Additionally, effects due to responsive hydrogel confinement in a porous template are shown to depend on pore size and architecture of the PSi transducer substrate. Sufficient copolymer and water is removed from the PSi transducer upon dissolution and drying of the hydrogel to induce color changes that can be detected by the unaided eye. This highlights the potential for future development for point-of-care diagnostic biosensing.
本文展示了将化学响应性水凝胶整合到一维光子多孔硅(PSi)换能器中的方法。通过合成胺功能化聚丙烯酰胺共聚物设计了一种通用的水凝胶骨架,其中进一步的胺特异性生化反应能够基于互补的靶标-探针系统控制共聚物链之间的交联。作为初步演示,本文报道了在PSi布拉格镜传感器中引入二硫键化学来控制该水凝胶系统的交联。对整合后的PSi布拉格镜白光反射光谱中的特征峰进行直接光学监测,有助于在几分钟的时间尺度内实时检测水凝胶对目标分析物(还原剂)的溶解情况。结果表明,混合传感器的响应特性系统地依赖于水凝胶的交联密度和施加的目标分析物浓度。此外,响应性水凝胶在多孔模板中的限制效应显示出依赖于PSi换能器基底的孔径和结构。水凝胶溶解和干燥后,PSi换能器中足够的共聚物和水被去除,从而引起肉眼可检测到的颜色变化。这突出了即时诊断生物传感未来发展的潜力。