用于生物分子电子和电化学检测的碳纳米管
Carbon Nanotubes for Electronic and Electrochemical Detection of Biomolecules.
作者信息
Kim Sang Nyon, Rusling James F, Papadimitrakopoulos Fotios
机构信息
Institute of Materials Science, University of Connecticut Storrs, CT 06269.
出版信息
Adv Mater. 2007 Oct 19;19(20):3214-3228. doi: 10.1002/adma.200700665.
Abstract
The unique electronic and optical properties of carbon nanotubes, in conjunction with their size and mechanically robust nature, make these nanomaterials crucial to the development of next-generation biosensing platforms. In this Review, we present recent innovations in carbon nanotube-assisted biosensing technologies, such as DNA-hybridization, protein-binding, antibody-antigen and aptamers. Following a brief introduction on the diameter- and chirality-derived electronic characteristics of single-walled carbon nanotubes, the discussion is focused on the two major schemes for electronic biodetection, namely biotransistor- and electrochemistry-based sensors. Key fabrication methodologies are contrasted in light of device operation and performance, along with strategies for amplifying the signal while minimizing nonspecific binding. This Review is concluded with a perspective on future optimization based on array integration as well as exercising a better control in nanotube structure and biomolecular integration.
摘要
碳纳米管独特的电学和光学特性,再加上其尺寸和机械稳健性,使得这些纳米材料对于下一代生物传感平台的发展至关重要。在本综述中,我们介绍了碳纳米管辅助生物传感技术的最新创新,如DNA杂交、蛋白质结合、抗体-抗原和适体。在简要介绍了单壁碳纳米管的直径和手性衍生的电子特性之后,讨论集中在两种主要的电子生物检测方案,即生物晶体管和基于电化学的传感器。根据器件操作和性能对比了关键的制造方法,以及在最小化非特异性结合的同时放大信号的策略。本综述最后展望了基于阵列集成以及更好地控制纳米管结构和生物分子集成的未来优化方向。
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2
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