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利用中红外和真空紫外光谱对一氧化碳:氨冰混合物进行系统研究 - 第2部分:电子辐照和热处理

Systematic investigation of CO : NH ice mixtures using mid-IR and VUV spectroscopy - part 2: electron irradiation and thermal processing.

作者信息

James Rachel L, Ioppolo Sergio, Hoffmann Søren V, Jones Nykola C, Mason Nigel J, Dawes Anita

机构信息

School of Physical Sciences, The Open University, Walton Hall Milton Keynes UK

School of Electronic Engineering and Computer Science, Queen Mary University of London Mile End Road London UK.

出版信息

RSC Adv. 2021 Oct 7;11(52):33055-33069. doi: 10.1039/d1ra05600j. eCollection 2021 Oct 4.

DOI:10.1039/d1ra05600j
PMID:35493573
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9042239/
Abstract

Many experimental parameters determine the chemical and physical properties of interstellar ice analogues, each of which may influence the molecular synthesis that occurs in such ices. In part 1, James , , 2020, , 37517, we demonstrated the effects that the stoichiometric mixing ratio had on the chemical and physical properties of CO : NH mixtures and the impact on molecular synthesis induced by thermal processing. Here, in part 2, we extend this to include 1 keV electron irradiation at 20 K of several stoichiometric mixing ratios of CO : NH ices followed by thermal processing. We demonstrate that not all stoichiometric mixing ratios of CO : NH ice form the same products. Not only did the 4 : 1 ratio form a different residue after thermal processing, but O was observed after electron irradiation at 20 K, which was not observed in the other ratios. For the other ratios, the residue formed from a thermal reaction similar to the work shown in Part 1. However, conversion of ammonium carbamate to carbamic acid was hindered due to electron irradiation at 20 K. Our results demonstrate the need to systematically investigate stoichiometric mixing ratios to better characterise the chemical and physical properties of interstellar ice analogues to further our understanding of the routes of molecular synthesis under different astrochemical conditions.

摘要

许多实验参数决定了星际冰类似物的化学和物理性质,其中每一个参数都可能影响此类冰中发生的分子合成。在第1部分(詹姆斯,2020年,第37517页)中,我们展示了化学计量混合比对CO:NH混合物的化学和物理性质的影响,以及热处理对分子合成的影响。在此,在第2部分中,我们将此扩展到包括在20K下对几种化学计量混合比的CO:NH冰进行1keV电子辐照,然后进行热处理。我们证明并非所有化学计量混合比的CO:NH冰都会形成相同的产物。不仅4:1的比例在热处理后形成了不同的残余物,而且在20K电子辐照后观察到了O,这在其他比例中未观察到。对于其他比例,热反应形成的残余物与第1部分所示的工作类似。然而,由于在20K下的电子辐照,氨基甲酸铵向氨基甲酸的转化受到阻碍。我们的结果表明,需要系统地研究化学计量混合比,以更好地表征星际冰类似物的化学和物理性质,从而进一步加深我们对不同天体化学条件下分子合成途径的理解。

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