Studying polymers is the most widespread use of thermal analysis. It is used to measure the physical properties of materials as well as their thermal and mechanical history. This is used to estimate ...

Different thermal analysis methods have become a popular route for determining how different polymers behave under different temperature environments. Some polymers can be used in high-temperature ...

Nanobiotechnology invovles the use of novel and developed nanoscale materials for nano-based drug delivery systems (DDS), nano-biosensors for medical disease detection, and nanoscale imaging agents ...

Synthetic polymers are a crucial, yet often overlooked, aspect of daily life. From the hard plastics used in packaging and consumer products to biocompatible coatings for medical materials, to ...

Semiconductor device manufacturing requires careful consideration of key device fabrication and operation aspects, including the fabrication process, heat dissipation from the devices to the ...

Thermal analytical techniques are invaluable methods for characterizing the properties and structure of pharmaceutical materials. These techniques analyze the change in a specific property of the ...

Assessing individual components is the foremost step in system thermal analysis. A component's reported thermal-resistance data becomes the gauge for thermal evaluation and management. It is therefore ...

AN audience of 400 scientists from more 40 countries saw the University of Huddersfield's Professor Ted Charsley - a leading authority on thermal analysis - receive a prestigious new award. Then they ...

IMA is a biannual series of conferences that started in 1999 and covers all areas of modern trends and applications of Chemical Analysis. Topics to be covered Current trends on Spectrochemical, ...