开发和集成基于实验室芯片微机电系统的超微型气相色谱仪原型,用于太空探索任务

IF 2.9 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY ACS Earth and Space Chemistry Pub Date : 2024-08-29 DOI:10.1021/acsearthspacechem.4c00111
Malak Rizk-Bigourd, Cyril Szopa, David Coscia, Jean-Pierre Pineau, Vincent Guerrini, Frederic Ferreira, Fabrice Bertrand, Arnaud Philippart, Audrey Boco, Guillaume Rioland, Valérie Peulon-Agasse, Arnaud Buch, Pascal Cardinael
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引用次数: 0

摘要

我们基于微机电系统(MEMS)预浓缩器、色谱柱和检测器子单元,开发、集成并测试了用于太空应用的超微型气相色谱仪原型。流体界面、机械设计和电子系统的设计都便于移植到空间仪器中。使用正戊烷、正己烷、苯和甲苯的混合物证明了反应线性、再现性以及预浓缩器、色谱柱和检测器的性能。使用该色谱柱,纳米重量检测器(NGD)的响应线性度超过 1 至 2 个数量级,R2 值高达 0.99。对保留时间的重现性进行了评估,其变化低于 0.2%。色谱柱的分离性能还以理论板数(N)和相当于理论板的高度(HETP)来衡量,分别为 8275 ± 45 个板(相当于每米 1655 ± 9 个板)和平均 0.6 毫米。预浓缩器的捕集和解吸性能也得到了验证。NGD 显示出很高的灵敏度,经评估,甲苯的检测限约为 3.1 pmol,非常适合太空探索。第一个 μGC-MEMS 原型的分析性能已经令人满意,并可用于空间研究。尽管如此,我们还是确定了一些优化方法(如预浓缩器的反冲注入或使用更适合太空应用的阀门),以提高性能和仪器的稳健性。
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Development and Integration of an Ultraminiaturized Gas Chromatograph Prototype Based on Lab-on-a-Chip Microelectromechanical Systems for Space Exploration Missions
We developed, integrated, and tested an ultraminiaturized gas chromatograph prototype for space applications based on microelectromechanical system (MEMS) preconcentrator, column, and detector subunits. The fluidic interface, the mechanical design, and the electronic system were all designed to be easily transposable to space instrumentation. The response linearity, reproducibility as well as the preconcentrator, column, and detector performances were demonstrated using a mixture of n-pentane, n-hexane, benzene, and toluene. Using the column, the response linearity of the nano-gravimetric detector (NGD) was observed over 1 to 2 orders of magnitude with a high R2 value of 0.99. The retention time reproducibility was evaluated with a variation lower than 0.2%. The column separation performances were also qualified in terms of number of theoretical plates (N) and height equivalent to a theoretical plate (HETP) with 8275 ± 45 plates (equivalent to 1655 ± 9 plates per meter) and 0.6 mm on average, respectively. The preconcentrator performance for trapping and desorption was also validated. The NGD showed high sensitivity, and the limit of detection was evaluated to be about 3.1 pmol for toluene, which is very suitable for space exploration. The analytical performance of the first μGC-MEMS prototype was already satisfying and adapted for space studies. Nevertheless, some ways of optimization were identified (like back-flush injection for the preconcentrator or the use of valves more suited to space applications) to improve both performances and instrument robustness, and they will be tested in the future with a second version of our prototype.
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来源期刊
ACS Earth and Space Chemistry
ACS Earth and Space Chemistry Earth and Planetary Sciences-Geochemistry and Petrology
CiteScore
5.30
自引率
11.80%
发文量
249
期刊介绍: The scope of ACS Earth and Space Chemistry includes the application of analytical, experimental and theoretical chemistry to investigate research questions relevant to the Earth and Space. The journal encompasses the highly interdisciplinary nature of research in this area, while emphasizing chemistry and chemical research tools as the unifying theme. The journal publishes broadly in the domains of high- and low-temperature geochemistry, atmospheric chemistry, marine chemistry, planetary chemistry, astrochemistry, and analytical geochemistry. ACS Earth and Space Chemistry publishes Articles, Letters, Reviews, and Features to provide flexible formats to readily communicate all aspects of research in these fields.
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