Department of Chemical Engineering, Stanford University, Stauffer III, 381 North-South Mall, Stanford, California 94305-5025, USA.
ACS Nano. 2009 Oct 27;3(10):3287-93. doi: 10.1021/nn900808b.
Detecting trace amounts of analytes in aqueous systems is important for health diagnostics, environmental monitoring, and national security applications. Single-walled carbon nanotubes (SWNTs) are ideal components for both the sensor material and active signal transduction layer because of their excellent electronic properties and high aspect ratio consisting of entirely surface atoms. Submonolayer arrays, or networks of SWNTs (SWNTnts) are advantageous, and we show that topology characteristics of the SWNT network, such as alignment, degree of bundling, and chirality enrichment strongly affect the sensor performance. To enable this, thin-film transistor (TFT) sensors with SWNTnts were deposited using a one-step, low-cost, solution- based method on a polymer dielectric, allowing us to achieve stable low-voltage operation under aqueous conditions. These SWNT-TFTs were used to detect trace concentrations, down to 2 ppb, of dimethyl methylphosphonate (DMMP) and trinitrotoluene (TNT) in aqueous solutions. Along with reliable cycling underwater, the TFT sensors fabricated with aligned, sorted nanotube networks (enriched with semiconductor SWNTs) showed a higher sensitivity to analytes than those fabricated with random, unsorted networks with predominantly metallic charge transport.
在水相体系中检测痕量分析物对于健康诊断、环境监测和国家安全应用非常重要。单壁碳纳米管 (SWNTs) 由于其优异的电子性能和由全表面原子组成的高纵横比,是传感器材料和活性信号转导层的理想组成部分。亚单层阵列或 SWNTs 的网络 (SWNTnts) 是有利的,我们表明,SWNT 网络的拓扑特征,如取向、捆绑程度和手性富集,强烈影响传感器性能。为此,我们使用一步法、低成本的基于溶液的方法在聚合物电介质上沉积了具有 SWNTnts 的薄膜晶体管 (TFT) 传感器,使我们能够在水相条件下实现稳定的低电压操作。这些 SWNT-TFT 用于检测痕量浓度,低至 2 ppb,水中的二甲基甲基膦酸酯 (DMMP) 和三硝基甲苯 (TNT)。与可靠的水下循环一样,用取向、分类的纳米管网络(富含半导体 SWNTs)制造的 TFT 传感器对分析物的灵敏度高于用随机、未分类的网络(主要是金属电荷传输)制造的传感器。
