基于微悬臂梁的微量液体浓度定量检测
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O482 TH7

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国家重点研发计划(2020YFB2007501)项目资助


Concentration quantitative detection of micro-quantity liquid based on micro-cantilever
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    摘要:

    采用双材料微悬臂梁结构,实现了一种对微量液体浓度的定量检测方法。 该方法是基于双材料微悬臂梁的温度敏感 性,当微定量液体分析物吸收光热光谱特征波长的光时,温度发生变化,悬臂梁相应会发生弯曲,通过光杠杆法测量弯曲量, 从而实现微悬臂梁对微量液体浓度的定量检测。 为了验证对微量液体浓度测量的适用性,实验中采用了已知在 980 nm 处 光热吸收峰的 NaYF4 样品溶液,分别取多组已知浓度的样品溶液 1 和 0. 5 μL 体积进行测量,通过最小二乘法拟合出浓度与 测得电压值之间的关系,结果显示,液体浓度与所测得的电压值成呈线性关系,与理论分析符合。 且在 1 和 0. 5 μL 体积的样 品溶液拟合曲线的线性相关系数分别为 R1 = 0. 998 0,R2 = 0. 989 5,分辨力分别为 1. 25,1. 40 mg / mL。 最后通过测试 1 μL 体 积的多组浓度溶液,其浓度测量结果误差均在在 2 mg / mL 以内,表明该方法能有效检测浓度,可用于确定体积微量液体的浓 度检测。

    Abstract:

    The dual-material micro-cantilever structure is adopted to realize a quantitative detection method for the micro-quantity liquid. The method is based on the temperature sensitivity of bi-material micro-cantilever. When the micro-quantity liquid analyte absorbs the light of the characteristic wavelength of the photothermal spectrum, it′s temperature changes, the cantilever will be bent accordingly, and the amount of bending is measured with the optical lever method, so that the quantitative detection of the micro-quantity liquid is realized with the micro cantilever. In order to verify the applicability of measuring the micro-quantity liquid, the NaYF4 sample solution with a known light-heat absorption peak at 980 nm was used in the experiment, and multiple sets of 1 and 0. 5 μL solutions with known concentrations were taken for measurement. The relationship between the concentration and the measured voltage value was fitted by the least square method. The results show that the liquid concentration has a linear relationship with the measured voltage value, which is consistent with the theoretical analysis. And the linear correlation coefficients of the fitted curves of the sample solutions with the volume of 1 and 0. 5 μL are R1 = 0. 998 0, R2 = 0. 989 5, and the resolutions are 1. 25, 1. 40 mg / mL, respectively. Finally, multiple sets of different concentration solutions with a volume of 1 μL were tested, the errors of the concentration measurement results are all within 2 mg / mL, which indicates that the proposed method can effectively detect the concentration and can be used in the concentration detect of the volume determined micro-quantity liquid.

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章泽铵,金 涛.基于微悬臂梁的微量液体浓度定量检测[J].仪器仪表学报,2021,(2):26-32

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  • 在线发布日期: 2023-06-28
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