Learn More Plastic Material Selection
Thermo Scientific Nalgene labware and containers are made from only top-quality laboratory, pharmaceutical, and food grade plastic resins.
Learn More Quantum Dots Support—Getting Started
Get tips and helpful information for use of Qdot™ probes, Qdot™ conjugates, and Qtracker™ reagents.
Learn More Chemical Analysis of Polymers
Manipulating the molecular structure of polymers leads to new plastics that perform better in daily life. Knowing and having the right tools to identify, quantify and formulate polymer constituents is essential in determining which fillers and additives will expand possibilities. Our analytical solutions drive innovation and productivity in polymer analysis, encompassing the design, characterization and lab-to-production scale of polymeric materials across many industries.
Learn More Elemental Analysis of Polymers
Identify polymers and control impurities through elemental analysis with X-ray fluorescence (XRF) spectrometry and elemental analyzers. XRF is ideally suited to analyze and quantify various elements down to sub-ppm levels. It provides critical insight into additives or contaminants, particularly in regulated environments.
Learn More Structural Analysis of Polymers
To address the demand for advanced polymeric materials to solve daily issues, scientists are working to improve the selectivity, activity and stability of catalyst particles, as well as engineering high quality polymer-based structures and organic or composite materials. X-ray diffraction (XRD) is a well-established technique for materials science research. With unique, dedicated environmental chambers, it can enable in situ dynamic experiments on materials in their natural states.
Learn More Persistent Organic Pollutants in Food
Learn about the techniques used to test food for persistent organic pollutants (POPs) such as dioxins, PCBs, OCPs, PBDEs, and more.
Learn More Spectroscopy Polymer Analysis
Identify, quantify, and deformulate your polymer constituents more easily and efficiently using our industry-leading spectroscopy technology. Speed your polymer analysis and get the answers you need to make critical decisions.
Learn More Organic Advanced Chemistry Course
From chemical reactions to sample and spectrum analysis, UV-Vis, NMR and FTIR instruments bring organic and advanced chemistry topics to your students.
Learn More Organic Elemental Analysis (OEA)
Experience the ultimate in simplicity, precision and cost effectiveness for the quantification of Carbon, Hydryogen, Nitrogen, Sulfur and Oxygen.
Learn More FTIR Applications
Fourier Transform infrared spectroscopy (FTIR spectroscopy) covers a wide range of chemical applications, especially for polymers and organic compounds. Learn more about the basics of this chemical analysis technique.
Webinars and training videos on a variety of molecular spectroscopy applications
Learn More FTIR Spectroscopy Basics
Fourier Transform infrared spectroscopy (FTIR Spectroscopy) covers a wide range of chemical applications, especially for polymers and organic compounds.
Learn More Spectroscopy Software
Improve access to data and facilitate collaboration while reducing the need for multiple software packages with the premier solution for visualizing, processing and managing spectroscopy data.
Learn More Soil Contaminant Analysis
Soil analysis is routine testing for both research and farm communities. Testing for nutrient components of soil, biosolids, plants, and contaminating metals are all common soil analysis uses.
Learn More Raman Webinars
A versatile vibrational technique, Raman spectroscopy excels at identifying both organic and inorganic compounds in solids and liquids. Raman is non-destructive and requires little or no sample preparation.