使用仲氢对微反应器中的催化氢化反应进行核磁共振成像。

NMR imaging of catalytic hydrogenation in microreactors with the use of para-hydrogen.

作者信息

Bouchard Louis-S, Burt Scott R, Anwar M Sabieh, Kovtunov Kirill V, Koptyug Igor V, Pines Alexander

机构信息

Materials Sciences Division, Lawrence Berkeley National Laboratory and Department of Chemistry, University of California, Berkeley, CA 94720, USA.

出版信息

Science. 2008 Jan 25;319(5862):442-5. doi: 10.1126/science.1151787.

DOI:10.1126/science.1151787

PMID:18218891

Abstract

Catalysis is vital to industrial chemistry, and the optimization of catalytic reactors attracts considerable resources. It has proven challenging to correlate the active regions in heterogeneous catalyst beds with morphology and to monitor multistep reactions within the bed. We demonstrate techniques, using magnetic resonance imaging and para-hydrogen (p-H2) polarization, that allow direct visualization of gas-phase flow and the density of active catalyst in a packed-bed microreactor, as well as control over the dynamics of the polarized state in space and time to facilitate the study of subsequent reactions. These procedures are suitable for characterizing reactors and reactions in microfluidic devices where low sensitivity of conventional magnetic resonance would otherwise be the limiting factor.

摘要

催化作用对工业化学至关重要，催化反应器的优化吸引了大量资源。事实证明，将多相催化剂床层中的活性区域与形态相关联以及监测床层内的多步反应具有挑战性。我们展示了利用磁共振成像和仲氢（p-H₂）极化的技术，这些技术能够直接可视化填充床微反应器中的气相流动和活性催化剂的密度，还能在空间和时间上控制极化态的动力学，以促进后续反应的研究。这些方法适用于表征微流控装置中的反应器和反应，否则传统磁共振的低灵敏度将成为限制因素。

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使用仲氢对微反应器中的催化氢化反应进行核磁共振成像。

NMR imaging of catalytic hydrogenation in microreactors with the use of para-hydrogen.

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