Determination of formaldehyde in production solutions using the piezoelectric sensors

Q4 Chemistry
A. A. Merenkova, K. Zhuzhukin, A. N. Zyablov, L. Belchinskaya
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引用次数: 0

Abstract

In the current work, piezoelectric sensors based on a molecular imprinted polymer (MIP) were obtained for determining the formaldehyde in the industrial solutions of a woodworking plant. The synthesis was carried out directly on the surface of the piezoelectric sensor. In the process of the two-stage thermoimidization of the obtained prepolymerization mixture, a molecular imprinted polyimide of formaldehyde was formed. For the analysis of the supra-resin part of the effluent of the Grafskaya kuhnya LLC (Voronezh) woodworking enterprise, which was obtained by the dry distillation of wood, the method of a calibration graph having a linear relationship was used; the coefficient of determination R2 = 0.97. The detection limit of the piezosensor was 0.6 ∙ 10–4 mol / dm3, the range of determined concentrations was 1.0 – 10–4 mol / dm3. The comparison of piezoelectric sensors based on the polymer without imprints and based on the polymer with imprints of formaldehyde showed high selectivity of the latter for the target molecule. The calculated imprinting factor was 28.3, the coefficient of selectivity with respect to phenol was 0.05, which indicated the selectivity of the modified sensor to formaldehyde. The verification of the correctness of the determination of formaldehyde in the model and production solutions was carried out using the "added-found" method. It was found that the MIP-based sensor was sensitive only to formaldehyde, the relative standard deviation did not exceed 2.0%. In order to assess the effect of the object matrix (formaldehyde) on the value of the resonant frequency, the standard addition method was used. It was determined that the matrix did not affect the value of the analytical signal, the relative standard deviation was 2.8%. For the re-analysis, the piezoelectric sensor was exposed to the regeneration in the oven at 50 ⁰С. The proposed method for determining the concentration of the formaldehyde using the MIP-sensor allowed controlling the content of the toxicant in the industrial solutions.
用压电传感器测定生产溶液中的甲醛
在目前的工作中,获得了基于分子印迹聚合物(MIP)的压电传感器,用于测定木工厂工业溶液中的甲醛。合成是直接在压电传感器的表面上进行的。在所得预聚混合物的两阶段热酰亚胺化过程中,形成了甲醛分子印迹聚酰亚胺。为了分析通过木材干馏获得的Grafskaya kuhnya LLC(Voronezh)木工企业的流出物的超树脂部分,使用了具有线性关系的校准图的方法;决定系数R2=0.97。压电传感器的检测极限为0.6∙10–4 mol/dm3,确定的浓度范围为1.0–10–4 mol/L。基于没有印记的聚合物和基于具有甲醛印记的聚合物的压电传感器的比较显示出后者对目标分子的高选择性。计算出的印迹因子为28.3,相对于苯酚的选择性系数为0.05,这表明改性传感器对甲醛的选择性。使用“添加-发现”方法验证了模型和生产溶液中甲醛含量测定的正确性。研究发现,基于MIP的传感器仅对甲醛敏感,相对标准偏差不超过2.0%。为了评估目标基质(甲醛)对共振频率值的影响,使用了标准添加法。经测定,基质不影响分析信号的值,相对标准偏差为2.8%。为了重新分析,将压电传感器暴露在烘箱中50⁰С。所提出的使用MIP传感器测定甲醛浓度的方法允许控制工业溶液中有毒物质的含量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Analitika i Kontrol
Analitika i Kontrol Chemistry-Analytical Chemistry
CiteScore
0.90
自引率
0.00%
发文量
15
期刊介绍: Analitika i Kontrol is a scientific journal covering theoretical and applied aspects of analytical chemistry and analytical control, published since autumn 1997. Founder and publisher of the journal is the Ural Federal University named after the first President of Russia Boris Yeltsin (UrFU, Ekaterinburg).
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