三手香烟烟膜成分的时间变化和共存表面烟膜化学物质的氧化作用†。

IF 2.8 Q3 ENVIRONMENTAL SCIENCES
April M. Hurlock and Douglas B. Collins
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引用次数: 0

摘要

暴露在空气中的表面成分会对室内环境的空气质量和化学物质暴露产生很大影响。三手烟(THS)包括表面沉积的香烟烟雾残留物以及从这些残留物中挥发出来的气体集合,越来越被认为是长期烟草烟雾暴露的一个重要来源。虽然已有研究描述了涉及 THS 的气体/表面分区行为和一些多相反应系统,但由于沉积膜的内生化学反应性而导致化学成分随时间变化的可能性还有待研究。在这项研究中,香烟侧流烟雾被允许沉积在玻璃表面,这些表面要么是干净的,要么是预先涂有可能被烟雾中的活性氧氧化的化学物质。表面薄膜包括一种低挥发性抗氧化剂--三(2-羧乙基)膦(TCEP),以及两种与建筑物内表面薄膜相关的化合物--油酸(OA)和角鲨烯(SQ)。沉积后,尼古丁、TCEP、OA 和 SQ 的氧化产物会在数小时至数周内形成。因此,沉积为 THS 薄膜的香烟烟雾的固有氧化潜能可以引发和维持氧化化学反应,在最初烟雾沉积后的很长一段时间内改变表面薄膜的化学成分。在解释 THS 氧化结果时,还考虑了可能进入室内环境的具有已知氧化潜能的其他类型沉积微粒空气污染物。对 THS 和室内发现的沉积表面膜的继续研究应考虑以下概念:表面上的化学储库可能具有反应性,室内表面膜的化学成分可能与时间有关,气溶胶颗粒的沉积可能成为表面膜开始氧化的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Temporal changes in thirdhand cigarette smoke film composition and oxidation of co-existing surface film chemicals†

Temporal changes in thirdhand cigarette smoke film composition and oxidation of co-existing surface film chemicals†

The composition of air-exposed surfaces can have a strong impact on air quality and chemical exposure in the indoor environment. Third hand smoke (THS), which includes surface-deposited cigarette smoke residue along with the collection of gases evolved from such residues, is becoming increasingly recognized as an important source of long-term tobacco smoke exposure. While studies have described gas/surface partitioning behaviour and some multiphase reaction systems involving THS, the possibility of time-dependent changes in chemical composition due to chemical reactivity that is endogenous to the deposited film has yet to be investigated. In this study, sidestream cigarette smoke was allowed to deposit on glass surfaces that were either clean or pre-coated with chemicals that may be oxidized by reactive oxygen species found in the smoke. Surface films included a low volatility antioxidant, tris(2-carboxyethyl)phosphine (TCEP), and two compounds relevant to surface films found within buildings, oleic acid (OA) and squalene (SQ). Upon deposition, oxidation products of nicotine, TCEP, OA, and SQ were formed over time periods of hours to weeks. The inherent oxidative potential of cigarette smoke deposited as a THS film can therefore initiate and sustain oxidation chemistry, transforming the chemical composition of surface films over long periods of time after initial smoke deposition. An interpretation of the THS oxidation results is provided in the context of other types of deposited particulate air pollutants with known oxidative potential that may be introduced to indoor environments. Continued study of THS and deposited surface films found indoors should consider the concept that chemical reservoirs found on surfaces may be reactive, that the chemical composition of indoor surface films may be time-dependent, and that the deposition of aerosol particles can act as a mechanism to initiate oxidation in surface films.

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CiteScore
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