基于固态纳米孔的金纳米颗粒检测

Feng He, Bohua Yin, Wanyi Xie, Leyong Yu, Shoufeng Tong, Liyuan Liang, Deqiang Wang
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引用次数: 1

摘要

金纳米颗粒具有独特的光学和电子特性,已广泛应用于DNA和蛋白质检测的光学和电化学标记。基于纳米孔的金纳米颗粒的分析将为进一步研究纳米颗粒与DNA的结合提供良好的见解。本文通过研究10 nm和15 nm两种不同尺寸的金纳米颗粒的电流阻塞分布和停留时间,证明了金纳米颗粒在氮化硅纳米孔中的迁移。在100mm KCl溶液中加入0.075% Triton X-100和5mm Tris,以避免范德华力导致带负电荷的金纳米粒子聚集。采用电流介质击穿技术制备了基于SiN膜的纳米孔,并根据经验公式计算出纳米孔直径为18 nm。实验数据通过Clampfit 10.6.0.13版本和Origin 8 (OriginLab)进行分析。
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Detection of gold nanoparticles based on solid-state nanopore
Gold nanoparticles hold unique optical and electronic properties and have been extensively applied as optical and electrochemical labels for DNA and protein detection. The nanopore based analysis of gold nanoparticles will provide us good insight for further study the conjugation of nanoparticles and DNA. In the present work, we demonstrated gold nanoparticles translocation through silicon nitride (SiN) nanopore via investigation of distribution of current blockage and dwell time of gold nanoparticles with different sizes, 10 nm and 15 nm respectively. 100 mM KCl solution with 0.075% Triton X-100 and 5 mM Tris was used to avoid the aggregation of negatively charged gold nanoparticles caused by van der Waals force. Nanopore based on SiN membrane was fabricated by current dielectric breakdown technology, and the diameter of the nanopore was calculated from an empirical equation, which is 18 nm. Experimental data was analyzed via Clampfit, version 10.6.0.13, and Origin 8 (OriginLab).
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