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植被中氟的测定.氧弹燃烧与碱金属碳酸盐熔融

Determination of fluorine in vegetation - oxygen bomb combustion vs. alkali metal carbonate fusion
课程网址: http://videolectures.net/ipssc2017_pavlovic_fluorine_vegetation/  
主讲教师: Dona Pavlović
开课单位: 约瑟夫·斯特凡研究所
开课时间: 2017-05-23
课程语种: 英语
中文简介:
氟(F)因其对健康和环境的潜在危害而受到广泛关注。事实证明,少量氟化物对牙齿健康有益,而持续摄入大量氟化物会对人类(和动物)造成严重的不良影响,包括儿童患氟斑牙或儿童和成人患氟骨症。氟化物排放对世界许多地区的植被和随后的整个食物链构成威胁。因此,为了避免氟化物排放的负面影响,用氟监测人类和环境负荷至关重要。 用氟离子选择电极(F-ISE)测定样品中氟的含量。由于该电极测量游离氟离子(F-)的浓度,因此必须首先分解含有结合F的样品,以确保F从无机和有机化合物中释放并形成F-。分解可燃物质最重要的方法是碱金属碳酸盐熔融法和氧弹燃烧法。 碱金属-碳酸盐熔融已被证明对各种类型的样品有效,但有一个很大的缺点——分解时间。为此,我们实验室引入了氧弹燃烧技术。该方法广泛用于样品分解,但只有少数旧研究中的文章将其用于样品分解,以便随后测定F,这些研究不包括作为质量保证体系一部分的认证标准物质(CRM)分析。 本研究的目的是比较在CRM(NIST-2695)和一些其他植被样品(云杉针叶、绿茶和甘菊)中,用氧弹燃烧和碱金属碳酸盐熔融法完全分解后,用F-ISE测定的F含量。目标是:(1)使用CRM检查两种分解方法的准确性,(2)检查CRM的基质(蒂莫西草)是否代表其他植被样本类型。
课程简介: Fluorine (F) is one of several trace elements receiving much attention owing to its possible harmful effects on health and environment. Small amounts of fluoride have proven benefits for dental health, while continuous exposure to high intakes can result in severe adverse effects in humans (and animals), which include development of dental fluorosis in children or skeletal fluorosis in both, children and adults. Fluoride emissions represent a threat to vegetation and subsequently entire food chain in many parts of the world. Monitoring of human and environmental load with F is therefore of crucial importance in order to avoid negative impacts of fluoride emissions. The content of F in samples is determined with fluoride ion selective electrode (F-ISE). Because this electrode measures concentrations of free fluoride ions (F–), samples containing bound F must be decomposed first in order to assure release of F from inorganic and organic compounds and formation of F–. The most important methods for decomposition of combustible material are alkali metal carbonate fusion and oxygen bomb combustion. Alkali metal carbonate fusion has been proven to be effective for a variety types of samples, but has one big disadvantage - time of decomposition. For this reason, oxygen bomb combustion has been introduced in our laboratory. This method is widely used for sample decomposition, but there are only few articles from older studies where it has been used for decomposition of samples for subsequent determination of F and those studies do not include analysis of certified reference material (CRM) as a part of a quality assurance system. The aim of this study was to compare the contents of F determined with F-ISE in CRM (NIST-2695) and some other vegetation samples (spruce needles, green tea and camomile) after total decomposition with oxygen bomb combustion and alkali metal carbonate fusion. The objectives were: (1) check the accuracy of both decomposition methods using CRM, (2) check if CRM’s matrix (timothy grass) is representative for other vegetation sample types.
关 键 词: 氟化物; 碱金属碳酸盐熔融法; 氧弹燃烧法
课程来源: 视频讲座网
数据采集: 2022-03-27:zkj
最后编审: 2022-03-27:zkj
阅读次数: 36

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