PerkinElmer GCMS 2400™系统拥有超高稳定性和超低检测限,使实验室的解决方案更完善。MS 2400 SQ检测器围绕先进快速四极杆质谱仪而设计,并集成了GC 2400平台,从而加速推动了样品到结果的实验历程。得益于简化的维护流程和经久耐用的组件,MS 2400 SQ 系统通过易于使用的直观硬件优化了实验室效率。GCMS 2400系统具有分体式触摸屏和智能进样功能,助您随时随地快速决策!
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为了提高现代分析实验室的生产效率,用户交互界面通过一个显示屏收集并提供已配置的不同GC检测器和进样器的实时状态信息。MS 2400 SQ系统由PerkinElmer SimplicityChrom™色谱数据系统(CDS)软件管理,是综合GC工作流不可或缺的一部分。
无论是工业、环境、制药还是食品和饮料应用,GCMS 2400系统都能提供准确的数据,让您对结果充满信心。
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Download this interactive brochure to see all our biofuel lab solutions and supporting services. Maximize your laboratory's prospects in biofuels production and testing with PerkinElmer’s analytical solutions that can help you achieve high product qualit
At the center of the GC 2400 Platform development was an understanding of current trends and a strong focus on productivity for pharmaceutical, food, environmental and industrial analyses.
The PerkinElmer GC 2400 Platform addresses sustainability in two ways: firstly, by optimizing the use of helium, secondly, by promoting the use of hydrogen, a less costly and renewable alternative to helium, addressing also safety concerns.
Platforms equipped with automation elements and software-driven workflows will be key to enable productivity and decrease downtime.
As we entered a time of remote/hybrid working, laboratories showed an increased interest in remote and automated operations.
Experience real time status updates, integrated HS and GC workflow, and enjoy intuitive software.
As analytical workloads have increased, labs analyzing Volatile Organic Compounds (VOCs) in soils and water by purge and trap with a gas chromatograph mass spectrometer (P&T and GC/MS) according to EPA Method 8260 are facing challenges in maintaining...
Today’s lab analysts and operators are increasingly digitally-savvy and are seeking state-of-the-art solutions that enable them to be more efficient.
Laboratories performing residual solvent analysis according to USP 467 strive to meet the requirements of the method while trying to optimize their workflow combining different analytical technologies and reduce laboratory costs.
GC 2400 平台提供创新技术,实现随时随地访问仪器。采用简单直观、分体式触摸屏可实时监控样品的运行状态,帮助您随时随地(无论是否在实验室中)更快地做出决策。
Every day, analytical laboratories are challenged with balancing high productivity with efficient operations. And with the growing trend of hybrid work models, gas chromatography operators seek remote access to their GC – whether they’re working in a different part of the lab or at a completely diff ...
PerkinElmer GCMS 2400气相色谱质谱联用系统,拥有超高稳定性和超低检测限,使实验室的解决方案更完善。得益于简化的维护流程和经久耐用的组件,MS 2400 SQ系统通过增加正常运行时间优化实验室效率,最大限度增加用户能够分析的样品数量。
PerkinElmer MS 2400 SQ系统标配SMARTsource技术,只需轻轻一拧SMARTsource,即可彻底拆下离子源和MS系统的离子透镜进行维护。离子源可以很容易地从仪器正面取下,无需将四极杆或检测系统暴露在外部环境。
Perkin Elmer MS 2400 SQ系统搭载具有尖端科技的Clarifi检测器。Clarifi检测器采用最新的电子倍增器技术设计,灵敏度(信噪比)优异、使用寿命更长。
创新的PerkinElmer GC 2400系统可为客户提供最大化的工作效率,旨在提高现代分析实验室的生产率,采用分体式触摸屏,结合智能进样技术,助您随时随地快速决策。
HS 2400顶空进样器具有无与伦比的灵敏度、极佳的精准度和极值的易用性的特点,采用专利的压力平衡进样技术,无需使用气密性注射器、进样阀和定量环,即可将样品精确导入色谱柱。
The PerkinElmer MS 2400™ SQ Detector comes standard with SMARTsource™ (Simplified Maintenance And Removal Technology), GC/MS source easy to remove, clean and reassemble – without the need for tools. A simple twist of the SMARTsource allows users to completely remove the ion source and lenses of the ...
The innovative PerkinElmer 2400 System allows customers to achieve unprecedented levels of efficiency. Designed to address the growing productivity and throughput needs of analytical laboratories, the GC 2400 System features a detachable touchscreen, so you can make decisions faster and be more prod ...
Supporting unparalleled sensitivity, pinpoint precision, and ultimate ease-of-use, the HS 2400™ Headspace Sampler pairs with most standard GC Systems and features patented pressure balance sampling technology that allows precise introduction of samples into the column without the use of a gas syring ...
PerkinElmer MS 2400 SQ System is designed around the cutting-edge Clarifi Detector. Engineered using the latest electron multiplier technology, the Clarifi Detector provides superior sensitivity (signal-to-noise) and the longest operational lifetime. Ions are efficiently converted into an electronic ...
本应用文章展示了PerkinElmer GC 2400系统根据ASTM方法D5501分析E85的性能。GC 2400系统为ASTM方法D5501- 20分析提供了理想的分离效率和定量重复性。
通过气相色谱法 (GC) 分析天然状态的甘油三酯具有挑战性,这主要是由于它们在进样口中的挥发性差和热分解。 为了改善它们的 GC 性质并提供脂肪酸的综合表征,酯化脂肪酰基链必须从甘油主链上裂解并甲基化,以获得脂肪酸甲酯(FAME)。该应用报告说明报告了使用配有毛细管进样口、火焰离子化检测器(FID)和Elite-2560柱的PerkinElmer GC 2400系统从食用油中分析FAME的结果,显示了快速分析时间和高重现性。
鲸蜡醇,也称为棕榈醇或1-十六烷醇,是一种长链脂肪醇,是食品、化妆品、药品、个人护理产品(例如乳液和面霜)以及工业燃料中的常见添加剂。为确保鲸蜡醇质量,美国药典(USP)在USP-国家处方集(NF)鲸蜡醇专论中概述了一种化学纯度测定法。专论概述了评估仪器性能、测量鲸蜡醇含量以及鉴别常见脂肪醇杂质(硬脂醇、月桂醇、肉豆蔻醇和油醇)和其他未知杂质的程序。
本应用文章显示了带FID的珀金埃尔默GC 2400™系统根据USP专论分析鲸蜡醇中残留杂质的性能,同时提高化合物分离度和高度重现性的进样。
不同类型的塑料用于这些不同的应用,但所有塑料制造都有一些常见的原材料需求,包括单体和溶剂。塑料制造工作流程旨在使用塑料聚合物形成过程中的所有单体输入,并从最终塑料产品中去除所有溶剂。然而,单体和溶剂的残留量通常会留在成品中。
残留的单体和溶剂会给最终用户带来健康风险或影响最终产品的性能。塑料制造商必须有一种简单的方法来制备用于分析的塑料样品,以及能够提供最严格纯度要求所需的高通量和灵敏度的分析仪器。
本应用文章详细介绍了用于分析塑料中残留溶剂和单体的PerkinElmer GC 2400火焰离子化检测器(FID)系统。
本应用文章显示了带FID的PerkinElmer GC 2400系统根据USP专论分析鲸蜡醇中残留杂质的性能,同时提高化合物分离度和高度可重复进样。
本应用文章展示了PerkinElmer GC 2400系统(带FID)根据更新后的USP专论进行丙二醇质量分析的性能,同时展示了卓越性能,提高了40%的分离度。
本应用文章将阐述PerkinElmer首次开发的可靠、高通量食品乙醇检测方法,方法是分析各种市售饮料和食品中的酒精含量,包括果汁、酱油和康普茶。使用PerkinElmer SimplicityChrom™色谱数据系统(CDS)软件进行数据采集和处理。
本应用文章报告了根据USP要求使用配备填充柱进样器和FID作为检测器的PerkinElmer GC 2400系统对聚乙二醇400样品中乙二醇和二甘醇进行分析的结果,显示生产率提高,实验室时间优化。
This application note shows the integration of the PerkinElmer GC 2400™ Platform in a Waters Empower CDS Software environment for the analysis of residual solvents Chapter USP 467. Results show improved productivity and lab time optimization. Instrument control and data analysis was managed by Water ...
Organic solvents are commonly used in the production of active pharmaceutical ingredients (API) and pharmaceutical products. The solvents are used for varying purposes including as synthesis reaction media, in the separation and purification of API during synthesis, to enhance yield, to impart desir ...
For more than 40 years, the United States Environmental Protection Agency (EPA) has monitored semivolatile organic compounds (SVOC) in wastes, soils/sediments, and groundwater via its Method 8270. This method is extensive in scope, targeting chemicals found in petroleum/soot (e.g., polycyclic aromat ...
Polyacrylic acid, also known as Carbomer, is used extensively in formulations across many industries, including cosmetics, pharmaceuticals, and personal care. Carbomers are polymers of acrylic acid cross-linked with allyl ethers of pentaerythritol or sucrose forming white, lightweight polymers that ...
Solid-state batteries (SSBs) are quickly becoming more popular as the industry looks to improve upon rechargeable battery performance and safety. These are batteries which use a solidstate electrolyte in place of the more conventional liquid electrolyte. Hyphenated techniques allow the user to not o ...
Biofuels continue to be of key importance to the energy sector as more renewable fuel solutions are developed to contribute to global climate goals and resolve energy shortages. Fatty Acid Methyl Ester (FAME) Biodiesel (B100) is a key component for blending with fossil-fuel diesel in portions of up ...
Sustainability strategies are being integrated into a growing number of businesses and their operations. Laboratories are no exception. Although the necessity to reduce the environmental impact of laboratory operations is recognized, it cannot be disengaged from the economic viability of labs. Rathe ...
Interest in the potential of smart technologies was high before the pandemic hit in 2020. That interest changed to a necessity when businesses were faced with the need for remote and automated operations in order to maintain business continuity. Businesses that have embraced smart operations are see ...
Labs seek to increase the capacity of their equipment, improve turnaround times and maximize the sensitivity of their testing – without placing additional burden on their operators. Simplification is one of the strategies of Industry 4.0 for manufacturing processes. It can also be applied to laborat ...
在本视频中,气相色谱产品平台总监 Alessandro Baldi Talini解释了分离背后的智能,以及GC 2400平台如何通过自动化和软件驱动的功能帮助实验室简化和增强其工作流程,从而使我们都能朝着气相色谱更智能、更互联和可持续的未来迈进。