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 ...

The level of difficulty in designing electro-technique devices has increased, owing to thermal stress. With the development of electric vehicles and electric aircraft, and to keep up with the recent ...

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 ...

is the thermal resistance between the object and the environment. The problem is to determine whether the integrated circuit in question is reliable at high temperatures. Without a particular method ...

As temperature increases, it is observed that low-molecular-weight materials undergo a transformation in their physical state which can be attributed to the changes in the energy levels of the ...

The mainstream adoption of 3D-IC has become a question mark due to critical challenges ranging from early-stage chip designs to 3D assembly exploration to final design signoff. A new EDA tool claims ...

Next-generation automotive, HPC and networking applications are pushing the requirements of thermal integrity and reliability, as they need to operate in extreme conditions for extended periods of ...

Technology scaling to 90nm and below brings higher performance and higher levels of on-chip functional integration. This scaling, however, has brought with it a variety of new or exacerbated issues, ...

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 ...

Handheld thermal imagers can display thermal patterns invisible to the naked eye, helping repair technicians quickly i ...