A spiral channel with integrated microelectrodes for label-free particle lateral position and size characterization

IF 3.3 4区医学 Q3 ENGINEERING, BIOMEDICAL Biomedical Microdevices Pub Date : 2025-03-18 DOI:10.1007/s10544-025-00742-5

Yunhao Peng, Bruce K. Gale, Himanshu J. Sant

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Abstract

Modified-trident shaped microelectrodes were incorporated into a spiral-shaped microfluidic focusing channel, utilizing impedance flow cytometry to analyze and quantify inertial microfluidic-based separation of homogeneous particles differing in size. Double peak voltage pulses were generated as particles moved across the electrodes, where the ratio of the peak amplitudes indicated the lateral particle positions inside the channel at various flow rates, while the peak amplitude indicated particle size and vertical position. The root mean square error between the optical and electrical position measurements was 11.44 µm reflecting the lateral position measurement resolution. The peak amplitudes were used to estimate particle size after being adjusted to account for particle vertical position using a shape parameter, which effectively reduced errors in particle size calculations. The particle size estimate sensitivity was measured to be 2.15 μm/mV from the peak amplitudes. The electrodes with the appropriate signal processing were able to detect both the size and location of particles after separation with a spiral channel, showing their utility in potentially controlling the separation conditions for these devices.

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集成微电极的螺旋通道，用于无标记颗粒横向位置和尺寸表征

将改良的三叉戟形微电极置入螺旋形微流控聚焦通道中，利用阻抗流式细胞术分析和量化基于惯性微流控的不同尺寸均匀颗粒分离。粒子在电极间移动时产生双峰电压脉冲，其中峰值振幅的比值表示在不同流速下粒子在通道内的横向位置，而峰值振幅表示粒子的大小和垂直位置。光电位置测量的均方根误差为11.44µm，反映了横向位置测量的分辨率。在利用形状参数调整颗粒垂直位置后，利用峰值振幅来估计颗粒大小，从而有效地减少了颗粒大小计算中的误差。测量到的粒径估计灵敏度为2.15 μm/mV。经过适当信号处理的电极能够检测出螺旋通道分离后颗粒的大小和位置，显示出它们在控制这些设备分离条件方面的潜在效用。

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来源期刊

Biomedical Microdevices 工程技术-工程：生物医学

CiteScore

6.90

自引率

3.60%

发文量

审稿时长

6 months

期刊介绍： Biomedical Microdevices: BioMEMS and Biomedical Nanotechnology is an interdisciplinary periodical devoted to all aspects of research in the medical diagnostic and therapeutic applications of Micro-Electro-Mechanical Systems (BioMEMS) and nanotechnology for medicine and biology. General subjects of interest include the design, characterization, testing, modeling and clinical validation of microfabricated systems, and their integration on-chip and in larger functional units. The specific interests of the Journal include systems for neural stimulation and recording, bioseparation technologies such as nanofilters and electrophoretic equipment, miniaturized analytic and DNA identification systems, biosensors, and micro/nanotechnologies for cell and tissue research, tissue engineering, cell transplantation, and the controlled release of drugs and biological molecules. Contributions reporting on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices and nanotechnology are encouraged. A non-exhaustive list of fields of interest includes: nanoparticle synthesis, characterization, and validation of therapeutic or imaging efficacy in animal models; biocompatibility; biochemical modification of microfabricated devices, with reference to non-specific protein adsorption, and the active immobilization and patterning of proteins on micro/nanofabricated surfaces; the dynamics of fluids in micro-and-nano-fabricated channels; the electromechanical and structural response of micro/nanofabricated systems; the interactions of microdevices with cells and tissues, including biocompatibility and biodegradation studies; variations in the characteristics of the systems as a function of the micro/nanofabrication parameters.