Dear Colleagues,

Scaling has been the driving force of the electronic industry. Today, the Metal-Oxide-Semiconductor (MOS) transistor channel length has been scaled well below 20 nm. To mitigate short-channel effects, the transistor channel thickness has been scaled as well, and transistors have evolved to 3D multi-gate devices such as FINFETs, nanowires and nanosheets. Finally, novel materials—such as Ge, III-V, CNT, 2d and topological insulator materials—and innovative device concepts, including steep slope transistors—such as tunneling FETs (TFET), Cold-FETs, FerroFETs, or dynamically doped transistors (D2FETs)—have been proposed to maintain performance at reduced supply voltage or enable further downscaling.

This Special Issue is devoted to providing recent cutting-edge advances in modeling techniques and theoretical research for advanced nanoelectronic devices using innovative architectures and concepts or based on novel materials for ultra-scaled CMOS or beyond CMOS applications. These include but are not limited to the options mentioned above. The focus is on state-of-the-art modeling techniques (e.g., atomistic, multiscale and multiphysics), novel physics, electronic and transport properties and their impact on the device performance. This Special Issue especially welcomes submissions that study advanced atomistic and multiscale modeling techniques and novel or emerging device concepts, novel physics, and novel low-dimensional materials.

Dr. Aryan Afzalian
Guest Editor

Manuscript Submission Information

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• nanoelectronic device
• beyond CMOS
• steep-slope device
• topological Insulator
• low-dimensional material
• two-dimensional material
• atomistic modeling
• multiscale modeling