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 ...

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 ...

Cast iron solidification is a complex metallurgical process that directly influences the microstructure, mechanical properties and defect formation in castings. Thermal analysis techniques are ...

The course will provide a comprehensive overview of the latest developments and applications of the main thermal analysis and calorimetry techniques including differential scanning calorimetry (DSC), ...

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

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 ...

Safer batteries, specifically Li-ion batteries, have gained significant attention in the last few years owing to their extensive use as energy storage systems in many applications, including ...

In an era where artificial intelligence, autonomous vehicles, and high-performance computing push the boundaries of semiconductor technology, the thermal management of 2.5D and 3D integrated circuits ...

Thermal analysis methods are ideally suited for characterizing cosmetic raw materials and provide valuable input for the development and quality control of cosmetic products. The main methods used in ...

Recent studies have examined the effects of non-thermal processing on phenolics, flavonoids, anthocyanins, vitamins and overall antioxidant capacity across a range of food matrices. Compared with ...