Experimental setup for probing electron-induced chemistry in liquid micro-jets

Journal of Physics B Pub Date : 2023-10-19 DOI:10.1088/1361-6455/ad0205
Pamir Nag, Miloš Lj. Ranković, H. Christian Schewe, Jozef Rakovský, Leo Sala, Jaroslav Kočišek, Juraj Fedor
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Abstract

Abstract We present an experimental setup for probing chemical changes in liquids induced by electron collisions. The setup utilizes a custom-designed electron gun that irradiates a liquid microjet with an electron beam of tunable energy. Products of the electron-induced reactions are analyzed ex-situ . The microjet system enables re-circulation of the liquid and thus multiple irradiation of the same sample. As a proof-of-principle experiment, an aqueous solution of TRIS (2-Amino-2-(hydroxymethyl)propane-1,3-diol) was irradiated by 300 eV electron beam. Optical UV–VIS analysis shows that the electron impact on the liquid surface leads to the production of OH radicals in the solution which are efficiently scavenged by TRIS.
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液体微射流中探测电子诱导化学的实验装置
摘要:我们提出了一种探测电子碰撞引起的液体化学变化的实验装置。该装置利用一个定制设计的电子枪,用可调能量的电子束照射液体微射流。电子诱导反应的产物进行了非原位分析。微喷射系统使液体能够再循环,从而对同一样品进行多次辐照。作为原理验证实验,用300 eV电子束辐照TRIS(2-氨基-2-(羟甲基)丙烷-1,3-二醇)水溶液。光学UV-VIS分析表明,电子对液体表面的冲击导致溶液中OH自由基的产生,这些OH自由基被TRIS有效地清除。
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Journal of Physics B
Journal of Physics B
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