Engineered voltage-responsive nanopores 论文

2009Chemical Society Reviews引用 491
Nanopore and Nanochannel Transport StudiesElectrochemical Analysis and ApplicationsQuantum-Dot Cellular Automata

详细信息

发表期刊/会议
Chemical Society Reviews
发表日期
2009-12-04
发表年份
2009

关键词

Nanopore and Nanochannel Transport StudiesElectrochemical Analysis and ApplicationsQuantum-Dot Cellular Automata

摘要

The creation of synthetic devices that mimic functionality of biological systems is a task of fundamental importance for the future development of bio- and nanotechnology and also an ultimate test of our understanding of the biological systems. Among a plethora of bio-inspired devices, designed nanopores and nanochannels with an embedded functionality are of particular interest because of their potential applications in nanofluidic electronics, biosensing, separation, synthetic biology, and single-molecule manipulation. In this respect, nanopores with built-in stimulus-responsive properties are of special benefit. A transmembrane potential is a particularly useful stimulus as it is non-invasive, tunable, and can act over a short time scale. This critical review considers engineered solid-state and protein nanopores with voltage-responsive properties. The engineered systems show nonlinear current-voltage curves, and/or voltage-dependent switching between discrete conductance states (141 references).

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