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Resistive-Pulse Analysis of Single Phospholipid Vesicles Using Quartz Nanochannels. 石英纳米通道单磷脂囊泡的电阻脉冲分析。

Dian hua xue

Pub Date : 2017-04-01 DOI: 10.13208/j.electrochem.161250

Jonathan T Cox, Bo Zhang

We report the use of resistive-pulse method and quartz nanochannels for the detection and size analysis of single vesicles. Cylindrical shape quartz nanochannels have been used to detect single phospholipid vesicles ranging from 100 to 300 nm and polystyrene nanoparticles ranging from 170 to 400 nm in diameter. Translocations of single vesicles and nanoparticle were detected as individual square current pulses, which could be used to determine particle size. Our results show excellent agreement between the particle/vesicle sizes obtained from nanochannels and those from dynamic light scattering (DLS) and scanning electron microscopy (SEM). This electronic-based method was found to be fast, simple, and used cheap and robust microsensors made in house. The application of a quartz channel might be combined with other analytical methods, such as amperometry and fluorescence microscopy, to yield more complete information about biological and artificial vesicles.

我们报道了使用电阻脉冲法和石英纳米通道对单个囊泡进行检测和大小分析。圆柱形石英纳米通道已被用于检测直径为100至300纳米的单个磷脂囊泡和直径为170至400纳米的聚苯乙烯纳米颗粒。单个囊泡和纳米颗粒的易位被检测为单独的方电流脉冲，可用于确定颗粒大小。我们的研究结果表明，纳米通道获得的颗粒/囊泡尺寸与动态光散射(DLS)和扫描电子显微镜(SEM)获得的颗粒/囊泡尺寸非常一致。这种基于电子的方法被发现快速、简单，并且使用了廉价和坚固的自制微传感器。石英通道的应用可能与其他分析方法相结合，如安培法和荧光显微镜，以获得关于生物和人工囊泡的更完整的信息。

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全部化学•材料生命科学医学物理工程技术环境•农林材料科学地球科学法学管理学化学环境科学与生态学计算机科学教育学经济学农林科学人文科学生物学数学物理与天体物理心理学综合性期刊其他工业工程理学历史学农学文学信息工程

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