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Ann Occup Hyg. 2015 Jul;59(6):705-23. doi: 10.1093/annhyg/mev020. Epub 2015 Apr 7.
2
Exposure and emission measurements during production, purification, and functionalization of arc-discharge-produced multi-walled carbon nanotubes.电弧放电法制备多壁碳纳米管过程中生产、纯化及功能化阶段的暴露和排放测量。
Ann Occup Hyg. 2014 Apr;58(3):355-79. doi: 10.1093/annhyg/met072. Epub 2014 Jan 3.
3
Occupational exposure assessment in carbon nanotube and nanofiber primary and secondary manufacturers: mobile direct-reading sampling.碳纳米管和纳米纤维一级和二级制造商的职业暴露评估:移动式直读采样
Ann Occup Hyg. 2013 Apr;57(3):328-44. doi: 10.1093/annhyg/mes079. Epub 2012 Oct 25.
4
Field application of the Nanoparticle Emission Assessment Technique (NEAT): task-based air monitoring during the processing of engineered nanomaterials (ENM) at four facilities.纳米颗粒排放评估技术(NEAT)的现场应用:在四个设施中对工程纳米材料(ENM)进行加工时,基于任务的空气监测。
J Occup Environ Hyg. 2012;9(9):543-55. doi: 10.1080/15459624.2012.699388.
5
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Ann Occup Hyg. 2011 Nov;55(9):1016-36. doi: 10.1093/annhyg/mer073. Epub 2011 Sep 28.
7
Aerosol monitoring during carbon nanofiber production: mobile direct-reading sampling.碳纳米纤维生产过程中的气溶胶监测:移动式直读采样
Ann Occup Hyg. 2010 Jul;54(5):514-31. doi: 10.1093/annhyg/meq015. Epub 2010 May 6.
8
Exposure assessment of carbon nanotube manufacturing workplaces.碳纳米管制造工作场所的暴露评估。
Inhal Toxicol. 2010 Apr;22(5):369-81. doi: 10.3109/08958370903367359.
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制造环境中空气中多壁碳纳米管的评估。

Assessment of Airborn Multiwalled Carbon Nanotubes in a Manufactoring Environment.

作者信息

Fatkhutdinova L M, Khaliullin T O, Zalyalov R R, Tkachev A G, Birch M E, Shvedova A A

机构信息

Kazan State Medical University, ul Butlerova 49, Kazan, 420012 Russia.

Tambov State Technical University, ul. Sovetskaya 106, Tambov, 392000 Russia.

出版信息

Nanotechnol Russ. 2016 Jan;11(1):110-116. doi: 10.1134/S1995078016010055. Epub 2016 Mar 24.

DOI:10.1134/S1995078016010055
PMID:28603597
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5464609/
Abstract

This study was carried out in a factory producing multiwalled carbon nanotubes (MWCNTs) by the catalytic chemical vapor deposition method in a pyrolysis reactor. Air samples of the personal breathing areas were collected simultaneously on mixed cellulose ester filters, for analysis by transmission electron microscopy (TEM), and on high-purity quartz filters for thermal-optical analysis of elemental carbon (EC). It is found that the production of MWCNTs is accompanied by the release of the MWCNT structures in the air of different working zones. The concentration of respirable aerosol in the personal breathing areas, averaged over an 8-hour period, ranges from 0.54 to 6.11 μg/m based on EC. Airborne MWCNTs were found in the form of agglomerates that range in size from about 1 to 10 μm. These data are consistent with measurements in different plants by two other international groups (from the United States and Sweden) using similar methodology (TEM in combination with EC analysis). In the absence of convincing data on the potential health risks of MWCNTs, and following the principle of reasonable precautions, preventive measures should be taken to minimize exposure to these materials.

摘要

本研究在一家通过催化化学气相沉积法在热解反应器中生产多壁碳纳米管(MWCNT)的工厂进行。在个人呼吸区域的空气样本同时采集于混合纤维素酯滤膜上,用于透射电子显微镜(TEM)分析,以及采集于高纯度石英滤膜上,用于元素碳(EC)的热光分析。研究发现,MWCNT的生产伴随着不同工作区域空气中MWCNT结构的释放。基于EC,个人呼吸区域可吸入气溶胶的8小时平均浓度范围为0.54至6.11μg/m³。空气中的MWCNT以聚集体形式存在,尺寸范围约为1至10μm。这些数据与另外两个国际团队(来自美国和瑞典)在不同工厂使用类似方法(TEM结合EC分析)的测量结果一致。在缺乏关于MWCNT潜在健康风险的确凿数据的情况下,遵循合理预防原则,应采取预防措施以尽量减少对这些材料的接触。