液滴微流体中的集成实时 CMOS 发光传感和阻抗光谱技术

Qijun Liu, Diana Arguijo Mendoza, Alperen Yasar, Dilara Caygara, Aya Kassem, Douglas Densmore, Rabia Tugce Yazicigil
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引用次数: 0

摘要

高通量生物传感器筛选和优化对于健康和环境监测应用至关重要,可确保快速准确地检测生物和化学目标。传统的生物传感器设计和优化方法涉及劳动密集型过程,如手动移取大量样品,因此在各种环境和化学条件下进行大规模文库筛选时通量低、效率低。为了应对这些挑战,我们推出了嵌入定制 CMOS 集成电路 (IC) 的模块化液滴微流控系统,用于阻抗光谱和生物发光检测。我们的 CMOS 集成电路采用 65 纳米工艺制造,可实现高效的液滴检测和分析。我们展示了在 nL 容积液滴中对荧光素酶酶-底物反应的成功传感。阻抗光谱芯片以 67 mm/s 的速度检测 4 nL 液滴,分辨率为 45 pA,而发光检测器则以 6.7 nA/count 的分辨率检测来自 38 nL 液滴的光信号。我们展示了在混合平台中同时使用两种检测方法进行交叉验证的实时情况。通过提高灵活性、可扩展性和成本效益,该系统极大地推动了传统生物传感器测试的发展。
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Integrated Real-Time CMOS Luminescence Sensing and Impedance Spectroscopy in Droplet Microfluidics.

High-throughput biosensor screening and optimization are critical for health and environmental monitoring applications to ensure rapid and accurate detection of biological and chemical targets. Traditional biosensor design and optimization methods involve labor-intensive processes, such as manual pipetting of large sample volumes, making them low throughput and inefficient for large-scale library screenings under various environmental and chemical conditions. We address these challenges by introducing a modular droplet microfluidic system embedded with custom CMOS integrated circuits (ICs) for impedance spectroscopy and bioluminescence detection. Fabricated in a 65 nm process, our CMOS ICs enable efficient droplet detection and analysis. We demonstrate successful sensing of luciferase enzyme-substrate reactions in nL-volume droplets. The impedance spectroscopy chip detects 4 nL droplets at 67 mm/s with a 45 pA resolution, while the luminescence detector senses optical signals from 38 nL droplets with a 6.7 nA/count resolution. We show real-time concurrent use of both detection methods within our hybrid platform for cross-validation. This system greatly advances conventional biosensor testing by increasing flexibility, scalability, and cost-efficiency.

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