用粒子差分电迁移率分析仪测定纳米颗粒直径时长度单位尺寸传递误差的确定

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION
V. L. Solomakho, A. A. Bagdun
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引用次数: 1

摘要

纳米材料和纳米技术的质量在很大程度上取决于应用技术的稳定性,而这种稳定性在很大程度上取决于颗粒尺寸的稳定性。在这方面,出现了计量问题,这些问题与测量气溶胶、悬浮液和粉末的微观结构的尺寸以及在将物理量的一个单位从标准转移到工作测量仪器时确保测量的均匀性有关。这项工作的目的是确定和计算在测量纳米颗粒直径时传递单位长度尺寸的误差。确定了粒子微分电迁移率分析仪作为参考测量仪器,并对其进行了计算。它允许气溶胶颗粒的分离基于它们的电迁移率对颗粒大小的依赖。结合冷凝粒子计数器,它允许您扫描气溶胶并建立粒径分布函数。该测量方法是气溶胶中颗粒直径测量领域中最精确的测量方法,因此必须将粒径传递误差设定为标准。本文阐述了这种方法测量的物理原理,并给出了测定纳米颗粒直径的公式。基于该方程,确定了非排除系统误差的来源。同时,利用实验方法确定了纳米颗粒测量误差的随机分量,并计算了纳米颗粒直径测量时传递单位长度尺寸的误差。获得的结果将用于粒径标准样品的计量支持,确保气溶胶颗粒计数器测量的可追溯性,并用于气溶胶研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of the Error in Transferring of Length Unit’s Size when Measuring the Nanoparticles’ Diameter Using an Analyzer of Particles’ Differential Electrical Mobility
The quality of nanomaterials and nanotechnologies is largely determined by the stability of the applied technologies, which, to a large extent, depend on the constancy of particle sizes. In this regard, metrological problems arise that are associated both with measuring the dimensions of the microstructure of aerosols, suspensions and powders, and with ensuring the uniformity of measurements when transferring a unit of a physical quantity from a standard to working measuring instruments. The purpose of this work was to determine and calculate the error in transferring the size of a unit of length when measuring the diameter of nanoparticles.An analyzer of differential electric mobility of particles was determined as a reference measuring instrument for which the calculation was made. It allows the separation of aerosol particles based on the dependence of their electrical mobility on the particle size. In combination with a condensation particle counter, it allows you to scan an aerosol and build a particle size distribution function. This measurement method is the most accurate in the field of measuring the diameters of particles in aerosols, therefore, the error in the transmission of particle size must be set as for a standard.The paper describes the physical principles of measurement by this method and presents an equation for determining the diameter of nanoparticles. Based on this equation, the sources of non-excluded systematic error were identified. Also, an experimental method was used to determine the random component of the measurement error of nanoparticles and to calculate the error in transferring the size of a unit of length when measuring the diameter of nanoparticles.The obtained results will be used for metrological support of standard samples of particle size, ensuring traceability of measurements of aerosol particle counters and for aerosol research.
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
自引率
25.00%
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审稿时长
8 weeks
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