Development of methods to improve the robustness of inductively coupled plasma mass spectrometry while also improving detection limits

开发方法以提高电感耦合等离子体质谱的鲁棒性，同时提高检测限

• 批准号: 503887-2016
• 负责人: Beauchemin, Diane
• 金额: $ 5.83万
• 依托单位: Queen's University
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=696740
• 关键词: Development; methods; improve; robustness; inductively

Many laboratories have to perform the accurate analysis of numerous samples everyday, from service laboratories, such as Activation Laboratories Ltd (Actlabs) whose livelihood is to perform analyses, to government agencies (such as the Canadian Food Inspection Agency, Health Canada and Environment Canada to name a few), which monitor food, drugs, water, etc. for our safety. However, limitations of the instruments that are used for this purpose often complicate the analyses by requiring additional steps, which unavoidably decrease the number of samples that can be analyzed each day. Furthermore, available instruments can barely detect several elements of interest. The goal of this collaborative research effort between the Department of Chemistry at Queen's University and Actlabs is to develop practical, easily implementable means of circumventing the main limitations of these instruments that could be applied to industry, as opposed to more esoteric approaches that remain isolated in academia. To this end, several approaches will be optimized or developed to (1) make the measurement largely independent of sample composition and (2) decrease the lowest quantity of metal-containing species that can be measured in a variety of samples. This collaboration will benefit Queen's through new basic and applied research directions, salary support for students, and publication of basic research results. Actlabs will benefit from new analytical techniques that they can successfully use for more effective analysis of geochemical samples, with shorter turnaround time, which should attract more clients. Canada will benefit from the increased speed and reduced cost at which mining projects can develop. Mining and exploration companies indeed require analytical results at every step through the development process and cannot proceed to the next step without these results. Reducing the turnaround time will thus speed up mine development. As a large part of Canada's Gross Domestic Product (GDP) is from the mining sector (57 billion reported in July 2012), this will have a tremendous effect on Canadian GDP.

许多实验室每天都必须对大量样品进行准确分析，从服务实验室（例如以进行分析为生的 Activation Laboratories Ltd (Actlabs)）到政府机构（例如加拿大食品检验局、加拿大卫生部和加拿大环境部）仅举几例），为了我们的安全而监控食品、药品、水等。 然而，用于此目的的仪器的局限性通常会使分析变得复杂，因为需要额外的步骤，这不可避免地减少了每天可以分析的样品数量。 此外，现有的仪器几乎无法检测到一些感兴趣的元素。 女王大学化学系和 Actlabs 之间的这项合作研究工作的目标是开发实用、易于实施的方法来规避这些可应用于工业的仪器的主要局限性，而不是在工业领域中仍然孤立的更深奥的方法。学术界。 为此，将优化或开发几种方法，以（1）使测量在很大程度上独立于样品成分；（2）减少可在各种样品中测量的含金属物质的最低数量。 此次合作将通过新的基础和应用研究方向、学生薪资支持以及基础研究成果的发表使女王大学受益。 Actlabs 将受益于新的分析技术，他们可以成功地使用这些技术更有效地分析地球化学样品，并缩短周转时间，这应该会吸引更多客户。 加拿大将受益于采矿项目开发速度的提高和成本的降低。 采矿和勘探公司确实在开发过程的每一步都需要分析结果，如果没有这些结果，就无法进行下一步。 缩短周转时间将加快矿山开发。 由于加拿大国内生产总值 (GDP) 的很大一部分来自采矿业（2012 年 7 月报告为 570 亿），这将对加拿大 GDP 产生巨大影响。