Calibrating Reversing Heat Capacity with MDSC
In this Tech Tip, we will set up the saturator reservoir for the Discovery SA.
Microcalorimetry for the Biophysical Characterization of Macromolecules
Biological macromolecules are fundamental components of every cell and are therefore essential for all life. These vital molecules are categorized into four major classes: carbohydrates, lipids, proteins, and nucleic acids. Characterizing biological macromolecules is important for understanding their functions and relationships, which empowers the development of new therapies and treatments. Under this branch of macromolecule research, biotherapeutic drug therapy focuses on macromolecular interactions which can lead to disease and/or cell death.
Switching Probes on the Discovery TMA 450 RH
In this Tech Tip, we will set up the saturator reservoir for the Discovery SA.
What does COP 26 mean for the batteries industry?
In autumn of 2021, the 26th UN Climate Change Conference of the Parties (COP 26) met in Glasgow to work out agreements to curb greenhouse gas emissions and prevent additional climate change. COP 26 built upon the Paris Agreement to limit global warming below 2-degrees Celsius by achieving net zero carbon dioxide (CO2) emissions. These two agreements will shape how governments and industries work together to reduce climate change over the next decade.
What is Differential Scanning Calorimetry?
Differential scanning calorimetry is an analytical technique used to measure the amount of heat released or absorbed by a sample during heating or cooling over a range of temperature. As well as being used to characterize the thermal properties of a material, a differential scanning calorimeter is used to determine the temperature at which particular phase transitions occur, including glass transition temperature, fusion and crystallization events.
Measuring Heat Capacity Using the ASTM Three-Run Method – Discovery DSC
In this Tech Tip, we will set up the saturator reservoir for the Discovery SA.
Lithium-Ion Battery Brochure Download
Brochure Lithium-Ion Battery Brochure Download Analytical Solutions for Lithium-ion Battery Material Characterization Lithium-ion batteries represent a key technology to achieve net-zero carbon emissions in transportation, industrial equipment, and consumer electronics. Lithium-ion battery technology requires advanced material characterization of the anode, cathode, electrolyte, binder, and separator if lithium-ion batteries are to achieve their full potential as…
Engineering a Greener Approach to Polymers
Engineering a Greener Approach to Polymers Rowan University uses Waters and TA Instruments technology to advance materials research with the goal to utilize nature’s chemistry sustainably to enhance material performance Technology: ACQUITY APC System, TA Instruments Q800 Dynamic Mechanical Analyzer, TA Instruments Discovery Differential Scanning Calorimeter DSC 2500, Waters Alliance HPLC, TA Instruments Discovery Hybrid…
A Greener Approach to Polymers Sign Up
Case Study A Greener Approach to Polymers Technology: ACQUITY APC System, TA Instruments Q800 Dynamic Mechanical Analyzer, TA Instruments Discovery Differential Scanning Calorimeter DSC 2500, Waters Alliance HPLC, TA Instruments Discovery Hybrid Rheometer (HR-2), TA Instruments Discovery Analyzer TGA 550 Rowan University uses Waters and TA Instruments technology to advance materials research with the goal…