在氩气环境下，20千赫兹频率时，[BEPip][NTf]声致分解最初几十秒内的声致发光光谱。

Sonoluminescence Spectra in the First Tens of Seconds of Sonolysis of [BEPip][NTf], at 20 kHz under Ar.

作者信息

Pflieger Rachel, Lejeune Manuel, Draye Micheline

机构信息

ICSM, Univ Montpellier, CEA, CNRS, ENSCM, F-30207 Bagnols-sur-Cèze, France.

EDYTEM, University of Savoie Mont Blanc, F-73000 Chambéry, France.

出版信息

Molecules. 2022 Sep 16;27(18):6050. doi: 10.3390/molecules27186050.

DOI:10.3390/molecules27186050

PMID:36144792

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9502986/

Abstract

Following recent works on the sonochemical degradation of butyl ethyl piperidinium bis-(trifluoromethylsulfonyl)imide ([BEPip][NTf]), monitoring of sonoluminescence (SL) spectra in the first tens of seconds of sonolysis was needed to better characterize the formed plasma and to question the correlation of the SL spectra with the viscosity. A very dry [BEPip][NTf] ionic liquid (IL) and a water-saturated liquid are studied in this paper. In both cases, IL degradation is observed as soon as SL emission appears. It is confirmed that the initial evolution of the SL intensity is closely linked to the liquid viscosity that impacts the number of bubbles; however, other parameters can also play a role, such as the presence of water. The water-saturated IL shows more intense SL and faster degradation. In addition to the expected bands, new emission bands are detected and attributed to the S B-X emission, which is favored in the water-saturated ionic liquid.

摘要

继近期关于丁基乙基哌啶双（三氟甲基磺酰）亚胺（[BEPip][NTf]）的声化学降解研究之后，需要监测声解最初几十秒内的声致发光（SL）光谱，以便更好地表征所形成的等离子体，并探究SL光谱与粘度之间的相关性。本文研究了一种非常干燥的[BEPip][NTf]离子液体（IL）和一种水饱和液体。在这两种情况下，一旦出现SL发射，就会观察到IL降解。已证实，SL强度的初始变化与影响气泡数量的液体粘度密切相关；然而，其他参数也可能起作用，例如水的存在。水饱和IL显示出更强的SL和更快的降解。除了预期的谱带外，还检测到了新的发射谱带，并将其归因于S B-X发射，这种发射在水饱和离子液体中更有利。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c94/9502986/cf8ffca24975/molecules-27-06050-g001.jpg

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在氩气环境下，20千赫兹频率时，[BEPip][NTf]声致分解最初几十秒内的声致发光光谱。

Sonoluminescence Spectra in the First Tens of Seconds of Sonolysis of [BEPip][NTf], at 20 kHz under Ar.

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