Agilent offers three levels of ICP laboratory automation solutions. Choose the one that best suits you.

Understand vacuum technology enabling research in particle and plasma physics. Learn the fundamentals and explore systems to advance your research.

The analysis of soil, sediment, and solid waste contaminants and their effects on human health and crops are critically important areas of environmental monitoring. Regulations across the world are becoming increasingly stringent and the list of...

Polybrominated diphenyl ethers (PBDEs) are commonly used flame retardants and have been used in products such as plastics and textiles. PBDEs are subject to regulation, as certain variants are persistent, bio-accumulative, and toxic to humans and...

Due to their toxicity and persistence, several countries have taken steps to limit POPs pollution. Still, POPs are widely used, especially in developing economies, and legacy sites with dangerous levels of POPs contamination can be found in many...

Agilent Vaya and RapID Raman systems comply with new requirements laid out in a revised chapter, E.P. 2.2.48 on Raman Spectroscopy, addressing the growing use of portable and handheld Raman spectrometers.

Ultrahigh vacuum is critical to achieving the required conditions for particle acceleration and observation. Consult experienced Agilent engineers who can assist with materials and equipment selection to achieve the very low pressures required.

From material identification studies to analysis of packaging materials, our comprehensive guide to FTIR analysis covers the main applications of FTIR spectroscopy, with links to application notes by industry type.

Accelerate drug development with cutting-edge and automated technologies for a comprehensive understanding of immune responses.

Transmission FTIR mode is suitable for liquids, gases, powders and films. Learn about how transmission FTIR spectroscopy works, the different types of transmission FTIR sampling accessories available, and their applications.

GC electron capture detection (ECD) and gas chromatography-mass spectrometry (GC/MS)—including triple quadrupole GC/MS (GC/TQ)—are widely applied to targeted analysis of PCBs in soils and solids. GC quadrupole time-of-flight (Q-TOF) technology...

Fourier Transform Infrared (FTIR) spectrometers identify and characterize polymeric materials with nondestructive and in-situ sampling, thus ensuring quality and performance of finished products.

Studying the Efficacy of Chemotherapy Drugs By Measuring Isotope Ratios

ICP-OES analysis of functional foods and dietary supplements ensures compliance with global food labeling requirements. Agilent ICP-OES has a solution for you.

How quantifying metals in single cells and nanoparticles is unlocking new areas of research

Agilent has a wide range of analytical instruments, vacuum products, technical support services, and financial and lab management services to support lithium-ion battery cell assembly.

Check out our crude oil standard testing methods that can mitigate test interferences, detect even trace-level elemental contaminants, and improve laboratory safety.

Cellular toxicity research is an emerging environmental toxicology application that is driving needs for biological assays able to provide real-time measurement of the additive effects of chemicals in complex environmental sample matrices. In vitro...

Discover a better way to identify and quantitate host cell proteins and process-related impurities

Agilent sample preparation systems, supplies, and reliable triple quadrupole LC/MS systems offer a rapid start-to-finish workflow to confidently achieve EPA Method 8327 detection limits for PFAS in waters, while providing ultimate robustness and...