Sensorized nanoliter reactor chamber for DNA multiplication

V. Iordanov, Blagoi P. Iliev, Victor Joseph, Andre Bossche, Jeroen, Bastemeijer, P. Sarro, Ian T. Young, G. Dedem, M. Vellekoop
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引用次数: 3

Abstract

This paper presents thermal analysis verification of a sensorized 50 nl reactor chamber for DNA amplification based on PCR (polymerase chain reaction). The reactor is equipped with an integrated heater, temperature sensor and a photo detector for real time detection. Through micromachining, the thermal capacity of each chamber is minimized, enabling rapid PCR cycling. The proposed structure was implemented on a silicon substrate using a standard CMOS process and postprocessing. The chambers have a bottom area of 500/spl times/500 /spl mu/m/sup 2/ and a pitch of 1 mm. An array of 96 reactors can be formed on a square centimeter. In order to reach the required PCR temperature levels (55/spl deg/C, 75/spl deg/C and 92/spl deg/C) dedicated electronics, based on a proportional-integral (PI) controller were designed and built. The system is capable of stabilizing the temperature of the reactor and performing a temperature sweep up to 100/spl deg/C.
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用于DNA增殖的感应纳升反应器室
本文介绍了一种基于PCR(聚合酶链反应)的50 nl感应式DNA扩增反应器室的热分析验证。反应器配备了集成加热器、温度传感器和用于实时检测的光电探测器。通过微加工,每个室的热容量被最小化,使快速PCR循环。采用标准CMOS工艺和后处理在硅衬底上实现了所提出的结构。腔室的底部面积为500/spl倍/500 /spl μ /m/sup 2/,间距为1mm。一平方厘米上可以形成96个反应堆的阵列。为了达到所需的PCR温度水平(55/spl℃,75/spl℃和92/spl℃),设计并构建了基于比例积分(PI)控制器的专用电子器件。该系统能够稳定反应器的温度,并执行高达100/spl℃的温度扫描。
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