在铝制撞击器盘上测量亚微米级分级颗粒物

Measuring Submicron-Sized Fractionated Particulate Matter on Aluminum Impactor Disks.

作者信息

Buchholz Bruce A, Zermeño Paula, Hwang Hyun-Min, Young Thomas M, Guilderson Thomas P

机构信息

Center for Accelerator Mass Spectrometry, Lawrence Livermore National Laboratory, P.O. Box 808, Livermore, CA 94551 USA.

出版信息

Radiocarbon. 2010 Aug 1;52(2):278-285. doi: 10.1017/s0033822200045318.

DOI:10.1017/s0033822200045318

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3252030/

Abstract

Sub-micron sized airborne particulate matter (PM) is not collected well on regular quartz or glass fiber filter papers. We used a micro-orifice uniform deposit impactor (MOUDI) to fractionate PM into six size fractions and deposit it on specially designed high purity thin aluminum disks. The MOUDI separated PM into fractions 56-100 nm, 100-180 nm, 180-320 nm, 320-560 nm, 560-1000 nm, and 1000-1800 nm. Since the MOUDI has a low flow rate (30 L/min), it takes several days to collect sufficient carbon on 47 mm foil disks. The small carbon mass (20-200 microgram C) and large aluminum substrate (~25 mg Al) present several challenges to production of graphite targets for accelerator mass spectrometry (AMS) analysis. The Al foil consumes large amounts of oxygen as it is heated and tends to melt into quartz combustion tubes, causing gas leaks. We describe sample processing techniques to reliably produce graphitic targets for (14)C-AMS analysis of PM deposited on Al impact foils.

摘要

亚微米级的空气中颗粒物（PM）在常规石英或玻璃纤维滤纸上收集效果不佳。我们使用微孔均匀沉积冲击器（MOUDI）将PM分成六个粒径级分，并将其沉积在特制的高纯度薄铝盘上。MOUDI将PM分离为56 - 100纳米、100 - 180纳米、180 - 320纳米、320 - 560纳米、560 - 1000纳米和1000 - 1800纳米的级分。由于MOUDI的流速较低（30升/分钟），在47毫米箔盘上收集足够的碳需要数天时间。少量的碳质量（20 - 200微克碳）和大量的铝基底（约25毫克铝）给加速器质谱（AMS）分析的石墨靶生产带来了诸多挑战。铝箔在加热时会消耗大量氧气，并且容易熔入石英燃烧管，导致气体泄漏。我们描述了样品处理技术，以便可靠地生产用于对沉积在铝冲击箔上的PM进行¹⁴C - AMS分析的石墨靶。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e9dc/3252030/e194e3d2079a/nihms268013f1.jpg

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