Conveners
Parallel Session H: AI and Materials Innovation for Sensing, Alloys, and Device Modeling
- RAJESH SANI (SD School of Mines and Technology)
Recent studies have identified titanium carbide (Ti2C) MXenes as promising 2D materials for detecting volatile organic compounds (VOCs) present in human breath. These VOCs reflect physiological changes and can serve as early biomarkers for diseases such as lung cancer. Diagnosing lung cancer through breath analysis offers a non-invasive and rapid alternative to conventional diagnostic...
Metal amorphous nanocomposites (MANC) possess properties distinct from crystalline materials due to their characteristic microstructure, which gives them excellent soft magnetic behavior. Recent research has focused on developing novel MANC compositions with superior magnetic and mechanical properties for next-generation lightweight inductor cores in electrified vehicles and rovers. In this...
Multi-component alloy systems based on copper (Cu), silver (Ag), titanium (Ti) and nickel (Ni) are employed in various industrial applications owing to their desirable mechanical, electrical, thermal and antimicrobial properties. Accurate prediction of mechanical properties such as melting points, hardness and modulus of elasticity is crucial for materials discovery, particularly alloy...
Organic field effect transistors (OFETs) need to be simulated on a large scale for facilitating real time applications. To ensure that transistor-based circuits operate reliably, they need to be objectively modelled for all the physical events that occur during the operation. However, the existing models are yet to be comprehensive enough to address many of the diverse electrical behaviors of...
