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LDIR 激光红外成像系统

LDIR 激光红外成像光谱仪

激光红外成像

激光红外 (LDIR) 成像采用量子级联激光器 (QCL) 结合快速扫描光学元件,可使分子成像更快速、更简单。Agilent 8700 LDIR 激光红外成像系统提供了高质量成像与光谱数据,有助于完成药物片剂、多层包装材料、组织与纤维的组成分析。

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Distinguishing Between Polyamide and Natural Polyamide Microplastics

This study demonstrates the use of an Agilent 8700 LDIR chemical imaging system to successfully discriminate between natural and synthetic polymers

Quick and Easy Characterization of Microplastics in Surface and Treated Effluent Water by Laser Direct Chemical Imaging

This study demonstrates how the Agilent 8700LDIR instrument can be used to characterize microplastic particles in environmental waters. The sample preparation procedure is also discussed.

Fast, Automated Microplastics Analysis Using Laser Direct Chemical Imaging

Characterizing and quantifying microplastics in water samples from marine environments

Agilent 8700 LDIR Chemical Imaging System Brochure

Bringing Clarity and Unprecedented Speed to Chemical Imaging using the Agilent 8700 Laser Direct Infrared (LDIR) Chemical Imaging System

精选新闻

使用 LDIR 区分聚酰胺和天然聚酰胺微塑料的新应用

这项新研究使用 Agilent 8700 LDIR 激光红外成像系统成功区分了天然和合成聚合物。

主要介绍“快速简单地表征地表水和处理后污水中的微塑料”的新应用简报

本研究来自新加坡公共事业委员会,展示如何使用 Agilent 8700 LDIR 仪器表征环境水样中的微塑料颗粒。此外,还讨论了样品前处理流程。

比较微塑料分析理想技术的全新文章

激光红外 (LDIR) 成像、GC/MS、FTIR 和拉曼成像技术用于分析环境和食物链中微塑料的性能比较。

专题培训与活动

Microplastics Analysis Doesn't Need to Be So Hard

Microplastics in the environment are fast coming into focus as we begin to understand just how far these manmade products have made their way into ecosystems and food chains alike. The use of plastics has been growing for decades and now small plastic microbeads are also used in everyday products such as cosmetics, toothpaste, and personal care products. Contamination in our waterways, air and food (such as bottled water) from these microplastics (1 µm to 5 mm in size) is gaining significant public interest due largely to its emergence as an environmental and potential human health threat.

While regulators are trying to understand the extent and toxicity of the problem, researchers and analytical methods bodies are working towards standardized analytical solutions to best characterize these particles in terms of chemical identity, size, shape, and total mass.

Raman spectroscopy and mid-infrared imaging using focal plane array (FPA) systems are the most common techniques for this work. While non-destructive and effective they are slow and cumbersome to use. FPA systems, for example, require multi-hour scan times to generate an image. Large quantities of data, full spectra for every pixel, are collected and frequently as much as 30 gigabytes of data must be analyzed to identify these microplastics. This takes many hours and requires a high level of analytical expertise.

There are however alternatives to these traditional techniques based on Quantum Cascade Laser (QCL) technology, which provides a new approach in chemical imaging. In this webinar, we will explore how new QCL based chemical imaging systems can significantly simplify microplastics analysis through a rapid automated workflow.
网络研讨会/培训

药物制剂开发中的固态分析:透射拉曼光谱和 LDIR 激光红外成像技术的优势和局限

透射拉曼光谱 (TRS) 已获得制药行业应用批准,可用于散装原辅料样品的分析检测和鉴定以及成品含量均一度测试。本网络研讨会的第一部分将介绍拉曼光谱的基本原理、拉曼光谱与传统测试方法相比的优势和局限性、选择适合拉曼检测的产品所需的流程和步骤,以及拉曼方法和系统的开发和验证要求。此外,还将概述拉曼光谱方法的申报要求以及已获批的拉曼系统的生命周期维护。本网络研讨会的第二部分将介绍 LDIR 技术如何对较大的片剂表面进行快速、高质量的表面成像,应用范围包括制剂开发中的多晶型筛选。
网络研讨会/培训

分子光谱网络研讨会课程

分子光谱网络研讨会课程包括紫外-可见、荧光、FTIR 台式光谱仪和显微镜,以及手持式和便携式 FTIR 解决方案,提供高性能和灵活性选择
网络研讨会/培训

Spectroscopy Digital Workshops & Bootcamps

Hone your lab skills, outside the lab, with our live, interactive series of virtual workshops and software bootcamps! Learn about the latest in software solutions for Spectroscopy, discuss the entire analytical process from method development to data analysis, and participate in live analytical runs with our experts. We hope these will prepare you for future hands-on events in the future.
网络研讨会/培训

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