Hamburger Menu Button
Thermo Fisher Scientific Logo
登录
没有账号?建立账号 注册
  • 产品
    • 抗体
    • 引物合成
    • GeneArt Gene Synthesis Instant Designer
    • TaqMan Assay and Array Search
    • PCR 设备和耗材
    • 色谱柱和纯化柱
    • 实验室离心机
    • 分子生物学试剂和试剂盒
    • 实验室塑料耗材及用品
    • 查看所有产品分类
  • 应用和技术
    • 色谱
    • 细胞转染和培养
    • 实时荧光定量PCR
    • 质谱
    • 实验室塑料耗材及用品
    • 电子显微镜
    • 蛋白质生物学
    • PCR
    • RNAi
    • 环境
    • 查看所有应用和技术
  • 服务
    • 定制服务
    • 企业级实验室信息化服务
    • 企业服务
    • 金融&租赁服务
    • 仪器服务
    • OEM和商业供应
    • 培训服务
    • 360° CDMO 和 CRO 服务
    • CDMO 服务
    • 临床试验 CRO 服务
    • 查看所有帮助和支持
  • 帮助和支持
    • 学习中心
    • 联系我们
    • 更改国家或地区
    • 查看所有帮助和支持
  • 热门产品
    • TaqMan Real-Time PCR Assays
      TaqMan 实时荧光定量 PCR 试剂盒
    • Antibodies
      抗体
    • Oligos, Primers & Probes
      寡核苷酸、引物、探针
    • GeneArt Gene Synthesis
      GeneArt 基因合成
    • Cell Culture Plastics
      细胞培养耗材
  • 联系我们
  • 货号直购
  • 订单查询
  • 查找文件&证书
Thermo Fisher Scientific Logo

Search

搜索全部或下列指定分类
Search button
          • 联系我们
          • 货号直购
          • 登录
            登录
            没有账号?建立账号 注册
            • 我的账号
            • 订单
            • 账单及发票查询
            • 定制产品及项目

          Learn how Routine Laboratories Can Benefit from Triple Quadrupole ICP-MS Technology

          • Overview
          • About the presenters

          Triple quadrupole ICP-MS instruments have helped to take the analysis of trace elements to a new level, delivering better interference removal and significantly improved detection limits for key analytes, such as phosphorous, arsenic, or selenium. Because of this, these instruments can help to overcome a variety of typical challenges routine laboratories face. For example, the ability to remove additional interferences, such as doubly charged interferences, increases the confidence in data quality and helps to reduce time consuming and labor intensive re-runs or post-analysis data treatment.

          Triple quadrupole instruments use reactive cell gases such as oxygen or ammonia to remove interferences based on different chemical reactivity. However, in comparison to single quadrupole ICP-MS systems, the technique is often perceived as difficult to set up especially for non-expert users such as lab managers coming from a different technological background or laboratory technicians.

          Modern triple quadrupole ICP-MS instruments will easily help you to overcome initial difficulties with method setup based on straightforward design and intuitive software, allowing all laboratories and all staff levels to access the full potential of this technique.

          This webcast will show you how the triple-quadrupole ICP-MS instruments can help to solve the above-mentioned challenges. The presentation will feature key examples from leading industry laboratories on how triple quadrupole ICP-MS has helped them to solve or improve on their challenges with trace elemental analysis.

          Key learning objectives

          In this webcast, you will:

          • Learn why expert laboratories in the chemical industry apply triple quadrupole ICP-MS systems for their work in order to get more accurate results
          • Get to know the key benefits of triple quadrupole ICP-MS and how it removes all potential interferences
          • Discover how easy it is using modern software tools to integrate improved technology for sampling and analysis into your laboratory and reach another level of analytical possibilities
          • Find out how your laboratory will benefit from upgrading to triple quadrupole ICP-MS routine analysis with no obstacles for your operators

          Dr. Daniel Kutscher, Product Marketing Specialist, Thermo Fisher Scientific

          Daniel earned a degree in Chemistry at the University of Mainz, Germany, in 2007. Following that, Daniel joined the Analytical Spectrometry Group at the University of Oviedo, Spain, where he obtained his PhD in 2011. His main research interest in that time was the use of elemental labelling of proteins and peptides to explore new technologies based on elemental mass spectrometry for their accurate quantification.

          Daniel joined Thermo Fisher Scientific in 2011 as a Product Specialist for ICP-MS focusing on hyphenated techniques, such as IC-ICP-MS, and finding solutions for the high-throughput analysis of challenging sample types. In 2018, became a Product Marketing Specialist.

          Kerstin Vogel, Research Scientist, The Dow Chemical Company

          Kerstin received her M.S. and B.S. in Marine Environmental Science and Geo Chemistry from University of Oldenburg in 2001, Germany. Following that, Kerstin joined the Geochemistry Group at the University of Bremen, Germany. Her main research interest in that time was the investigation of elemental distribution patterns in marine sediments off NW Africa as indicators for climatic changes in the past. The project included the participation on two research vessel (METEOR) cruises.

          Kerstin joined Dow in 2005 as a Subject Matter Expert in Analytical Chemistry (ICP, Atomic Adsorption, Elemental Analysis and Ion Chromatography). She focusses on the usage of ICP-OES and –MS for challenging sample matrices and hyphenated techniques such as SEC-ICP-OES/MS and developing new methods in these fields of applications. In 2018, she became Research Scientist in Core R&D Analytical Science.

          Adrian Seaton, ICP-MS Technical Specialist, Johnson Matthey

          Adrian earned a degree in Chemistry at Coventry University, England in 1992, which encompassed a year in industry working in the detergent industry. After university his first full-time employment was with a fertilizer company analyzing fertilizer using ICP-OES and colorimetric techniques. He joined Johnson Matthey in 1997 as Shift Analyst analyzing base metal sponges and compounds, precious metal sponges and compounds and rare earth oxides using emission spectrographic techniques, ICP-OES, atomic absorption spectrometry and x-ray fluorescence. Adrian began using in ICP-MS in 2001. In 2010, became an ICP-MS Technical Specialist.

          Overview

          Triple quadrupole ICP-MS instruments have helped to take the analysis of trace elements to a new level, delivering better interference removal and significantly improved detection limits for key analytes, such as phosphorous, arsenic, or selenium. Because of this, these instruments can help to overcome a variety of typical challenges routine laboratories face. For example, the ability to remove additional interferences, such as doubly charged interferences, increases the confidence in data quality and helps to reduce time consuming and labor intensive re-runs or post-analysis data treatment.

          Triple quadrupole instruments use reactive cell gases such as oxygen or ammonia to remove interferences based on different chemical reactivity. However, in comparison to single quadrupole ICP-MS systems, the technique is often perceived as difficult to set up especially for non-expert users such as lab managers coming from a different technological background or laboratory technicians.

          Modern triple quadrupole ICP-MS instruments will easily help you to overcome initial difficulties with method setup based on straightforward design and intuitive software, allowing all laboratories and all staff levels to access the full potential of this technique.

          This webcast will show you how the triple-quadrupole ICP-MS instruments can help to solve the above-mentioned challenges. The presentation will feature key examples from leading industry laboratories on how triple quadrupole ICP-MS has helped them to solve or improve on their challenges with trace elemental analysis.

          Key learning objectives

          In this webcast, you will:

          • Learn why expert laboratories in the chemical industry apply triple quadrupole ICP-MS systems for their work in order to get more accurate results
          • Get to know the key benefits of triple quadrupole ICP-MS and how it removes all potential interferences
          • Discover how easy it is using modern software tools to integrate improved technology for sampling and analysis into your laboratory and reach another level of analytical possibilities
          • Find out how your laboratory will benefit from upgrading to triple quadrupole ICP-MS routine analysis with no obstacles for your operators
          About the presenters

          Dr. Daniel Kutscher, Product Marketing Specialist, Thermo Fisher Scientific

          Daniel earned a degree in Chemistry at the University of Mainz, Germany, in 2007. Following that, Daniel joined the Analytical Spectrometry Group at the University of Oviedo, Spain, where he obtained his PhD in 2011. His main research interest in that time was the use of elemental labelling of proteins and peptides to explore new technologies based on elemental mass spectrometry for their accurate quantification.

          Daniel joined Thermo Fisher Scientific in 2011 as a Product Specialist for ICP-MS focusing on hyphenated techniques, such as IC-ICP-MS, and finding solutions for the high-throughput analysis of challenging sample types. In 2018, became a Product Marketing Specialist.

          Kerstin Vogel, Research Scientist, The Dow Chemical Company

          Kerstin received her M.S. and B.S. in Marine Environmental Science and Geo Chemistry from University of Oldenburg in 2001, Germany. Following that, Kerstin joined the Geochemistry Group at the University of Bremen, Germany. Her main research interest in that time was the investigation of elemental distribution patterns in marine sediments off NW Africa as indicators for climatic changes in the past. The project included the participation on two research vessel (METEOR) cruises.

          Kerstin joined Dow in 2005 as a Subject Matter Expert in Analytical Chemistry (ICP, Atomic Adsorption, Elemental Analysis and Ion Chromatography). She focusses on the usage of ICP-OES and –MS for challenging sample matrices and hyphenated techniques such as SEC-ICP-OES/MS and developing new methods in these fields of applications. In 2018, she became Research Scientist in Core R&D Analytical Science.

          Adrian Seaton, ICP-MS Technical Specialist, Johnson Matthey

          Adrian earned a degree in Chemistry at Coventry University, England in 1992, which encompassed a year in industry working in the detergent industry. After university his first full-time employment was with a fertilizer company analyzing fertilizer using ICP-OES and colorimetric techniques. He joined Johnson Matthey in 1997 as Shift Analyst analyzing base metal sponges and compounds, precious metal sponges and compounds and rare earth oxides using emission spectrographic techniques, ICP-OES, atomic absorption spectrometry and x-ray fluorescence. Adrian began using in ICP-MS in 2001. In 2010, became an ICP-MS Technical Specialist.

          Register to view the free
          on-demand webinar

          * Required field

          *
          *
          *
          *
          *
          *
           
          *
          *
          *
          *
           I would like to speak with an expert to learn how Thermo Fisher Scientific products can help in my laboratory
           Please confirm you would like to receive marketing and promotional email messages about Thermo Fisher Scientific products and services.
           
           
          订购 Plus Icon Minus Icon
          • 订单状态查询
          • 订单支持
          • 货号直购
          • 现货供应中心
          • 电子采购
          支持 Plus Icon Minus Icon
          • 帮助&支持
          • 联系我们 - 400 820 8982
          • 技术支持中心
          • 查找文件&证书
          • 报告网站问题
          资源 Plus Icon Minus Icon
          • 学习中心
          • 促销
          • 活动&研讨会
          • 社交媒体
          关于赛默飞 Plus Icon Minus Icon
          • 关于我们
          • 招聘 招聘
          • 投资者关系 投资者关系
          • 新闻 新闻
          • 社会责任 社会责任
          • 商标
          • 政策和通知
          品牌 Plus Icon Minus Icon
          • Thermo Scientific
          • Applied Biosystems
          • Invitrogen
          • Gibco
          • Ion Torrent
          • Patheon
          • PPD
          • 服务条款
          • 隐私政策
          • 定价和运输保险政策
          © 2006-2025 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific and its subsidiaries unless otherwise specified.
          China flag icon
          China
          本网站销售的所有产品均不得用于人类或动物之临床诊断或治疗,仅可用于工业或者科研等非医疗目的。
             电子营业执照 | 经营证照公示 | ICP备案号:沪ICP备11003924号 | 沪公网安备 31011502006935号