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引用本文的文献

1
Millisecond timescale reactions observed via X-ray spectroscopy in a 3D microfabricated fused silica mixer. Corrigendum.通过X射线光谱法在三维微加工熔融石英混合器中观察到的毫秒级反应。勘误
J Synchrotron Radiat. 2022 May 1;29(Pt 3):930. doi: 10.1107/S1600577522002806. Epub 2022 Apr 5.

本文引用的文献

1
3D-MiXD: 3D-printed X-ray-compatible microfluidic devices for rapid, low-consumption serial synchrotron crystallography data collection in flow.3D-MiXD:用于在流动状态下进行快速、低消耗系列同步加速器晶体学数据采集的3D打印X射线兼容微流控装置。
IUCrJ. 2020 Jan 16;7(Pt 2):207-219. doi: 10.1107/S2052252519016865. eCollection 2020 Mar 1.
2
On the competition between mixing rate and uniformity in a coaxial hydrodynamic focusing mixer.在同轴流体动力学聚焦混合器中混合速率与均匀性的竞争。
Anal Chim Acta. 2020 Mar 22;1103:1-10. doi: 10.1016/j.aca.2020.01.013. Epub 2020 Jan 8.
3
3D Micromachined Polyimide Mixing Devices for in Situ X-ray Imaging of Solution-Based Block Copolymer Phase Transitions.3D 微加工聚酰亚胺混合设备,用于溶液基嵌段共聚物相转变的原位 X 射线成像。
Langmuir. 2019 Aug 13;35(32):10435-10445. doi: 10.1021/acs.langmuir.9b00728. Epub 2019 Aug 1.
4
Microfluidic Mixing Injector Holder Enables Routine Structural Enzymology Measurements with Mix-and-Inject Serial Crystallography Using X-ray Free Electron Lasers.微流控混合注射器支架使使用 X 射线自由电子激光进行混合注入连续结晶学实验成为可能,从而实现常规结构酶学测量。
Anal Chem. 2019 Jun 4;91(11):7139-7144. doi: 10.1021/acs.analchem.9b00311. Epub 2019 May 22.
5
Resonant inelastic X-ray scattering determination of the electronic structure of oxyhemoglobin and its model complex.共振非弹性 X 射线散射法测定氧合血红蛋白及其模型配合物的电子结构。
Proc Natl Acad Sci U S A. 2019 Feb 19;116(8):2854-2859. doi: 10.1073/pnas.1815981116. Epub 2019 Feb 4.
6
Microfluidics-based self-assembly of peptide-loaded microgels: Effect of three dimensional (3D) printed micromixer design.基于微流控的载肽微凝胶自组装:三维(3D)打印微混合器设计的影响。
J Colloid Interface Sci. 2019 Mar 7;538:559-568. doi: 10.1016/j.jcis.2018.12.010. Epub 2018 Dec 4.
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Revealing the distinct folding phases of an RNA three-helix junction.揭示 RNA 三螺旋连接点的独特折叠相。
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8
Self-assembly of fluorinated gradient copolymer in three-dimensional co-flow focusing microfluidic.三维共流聚焦微流控中氟化梯度共聚物的自组装。
J Colloid Interface Sci. 2018 Sep 15;526:75-82. doi: 10.1016/j.jcis.2018.04.076. Epub 2018 Apr 18.
9
Hydrogelation Kinetics Measured in a Microfluidic Device with in Situ X-ray and Fluorescence Detection.在具有原位 X 射线和荧光检测的微流控装置中测量水凝胶化动力学。
Langmuir. 2018 May 15;34(19):5535-5544. doi: 10.1021/acs.langmuir.8b00384. Epub 2018 Apr 30.
10
Effective intermediate-spin iron in O-transporting heme proteins.具有有效中间自旋的 O 传输血红素蛋白中的铁。
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在三维微加工熔融石英混合器中通过 X 射线光谱观测到毫秒时间尺度的反应。

Millisecond timescale reactions observed via X-ray spectroscopy in a 3D microfabricated fused silica mixer.

机构信息

Stanford University, Stanford, CA 94305, USA.

University of Guadalajara, 44430 Guadalajara, Mexico.

出版信息

J Synchrotron Radiat. 2021 Jul 1;28(Pt 4):1100-1113. doi: 10.1107/S1600577521003830. Epub 2021 May 19.

DOI:10.1107/S1600577521003830
PMID:34212873
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8284405/
Abstract

Determination of electronic structures during chemical reactions remains challenging in studies which involve reactions in the millisecond timescale, toxic chemicals, and/or anaerobic conditions. In this study, a three-dimensionally (3D) microfabricated microfluidic mixer platform that is compatible with time-resolved X-ray absorption and emission spectroscopy (XAS and XES, respectively) is presented. This platform, to initiate reactions and study their progression, mixes a high flow rate (0.50-1.5 ml min) sheath stream with a low-flow-rate (5-90 µl min) sample stream within a monolithic fused silica chip. The chip geometry enables hydrodynamic focusing of the sample stream in 3D and sample widths as small as 5 µm. The chip is also connected to a polyimide capillary downstream to enable sample stream deceleration, expansion, and X-ray detection. In this capillary, sample widths of 50 µm are demonstrated. Further, convection-diffusion-reaction models of the mixer are presented. The models are experimentally validated using confocal epifluorescence microscopy and XAS/XES measurements of a ferricyanide and ascorbic acid reaction. The models additionally enable prediction of the residence time and residence time uncertainty of reactive species as well as mixing times. Residence times (from initiation of mixing to the point of X-ray detection) during sample stream expansion as small as 2.1 ± 0.3 ms are also demonstrated. Importantly, an exploration of the mixer operational space reveals a theoretical minimum mixing time of 0.91 ms. The proposed platform is applicable to the determination of the electronic structure of conventionally inaccessible reaction intermediates.

摘要

在毫秒时间尺度、有毒化学物质和/或厌氧条件下涉及的反应的研究中,确定化学反应中的电子结构仍然具有挑战性。在这项研究中,提出了一种与时间分辨 X 射线吸收和发射光谱(分别为 XAS 和 XES)兼容的三维(3D)微制造微流混合器平台。该平台通过在整体熔融石英芯片内混合高流速(0.50-1.5 ml min)鞘流和低流速(5-90 μl min)样品流来引发反应并研究其进展。芯片几何形状实现了样品流的 3D 水力聚焦和小至 5 μm 的样品宽度。该芯片还与聚酰亚胺毛细管下游相连,以实现样品流减速、膨胀和 X 射线检测。在该毛细管中,展示了 50 μm 的样品宽度。此外,还提出了混合器的对流-扩散-反应模型。使用共焦荧光显微镜和铁氰化物和抗坏血酸反应的 XAS/XES 测量对模型进行了实验验证。这些模型还可以预测反应性物质的停留时间和停留时间不确定性以及混合时间。还演示了在样品流扩展期间的停留时间(从混合开始到 X 射线检测的时间)小至 2.1 ± 0.3 ms。重要的是,对混合器操作空间的探索揭示了理论上最小的混合时间为 0.91 ms。该平台适用于确定传统上难以进入的反应中间体的电子结构。