Abstract
Solid-state nanopores offer a range of distinct advantages over biological nanopores,such as structural diversity and greater stability and durability;this makes them highly promising for high-resolution nanoparticle sensing.Biological nanopores can exhibit gating characteristics with stress-responsive switches and can demonstrate specificity toward particular molecules.Drawing inspiration from biological nanopores,this paper introduces a novel polymer nanopore with field-effect characteristics,leveraging a conductive polymer in its construction to show-case intriguing gating behavior.Notably,in this device,the polymer layer serves as the gate,enabling precise control over the source-drain current response inside and outside the pore by simply adjusting the gate voltage.This unique feature allows fine-tuning of the nanopore's sensitivity to nanoparticles of varying sizes and facilitates its operation in multiple modes.Experimental results reveal that the developed poly-mer nanopore field-effect transistor demonstrates remarkable selectivity in detecting nanoparticles of various sizes under different applied voltages.The proposed single device demonstrates the exceptional ability to detect multiple types of nanoparticle,showcasing its immense potential for a wide range of applications in biological-particle analysis and medical diagnostics.
基金项目
National Natural Science Foundation of China(U2233206)
National Natural Science Foundation of China(61674114)
National Natural Science Foundation of China(91743110)
National Key R&D Program of China(2021YFC3002204)
Tianjin Applied Basic Research and Advanced Technology(17JCJQJC43600)
111 Project(B07014)
国家科技期刊平台
NSTL
万方数据