As the scaling technology in the silicon-based semiconductor industry is approaching
physical limits, it is necessary to search for proper materials to be utilized as alternatives for …

In the last decade, as semiconductor industry was approaching the end of the exponential
Moore's roadmap for device downscaling, the necessity of finding new candidate materials …

Multiple logic devices are presently under study within the Nanoelectronic Research
Initiative (NRI) to carry the development of integrated circuits beyond the complementary …

Integration of graphene field-effect transistors (GFETs) requires the ability to grow or deposit
high-quality, ultrathin dielectric insulators on graphene to modulate the channel potential …

Reconfigurable field-effect transistors (RFETs) based on emerging nanotechnologies allow
switching between p-type and n-type behavior at runtime upon applying different bias …

Nanoelectronics comprises a variety of devices whose electrical properties are more
complex as compared to CMOS, thus enabling new computational paradigms. The …

Several emerging reconfigurable technologies have been explored in recent years offering
device level runtime reconfigurability. These technologies offer the freedom to choose …

Graphene emerged in 2004 as the first 2-D material with exotic properties. Since then the
literature has been flooded with reports, with physicists, material scientists, and engineers …

Individual transistors based on emerging reconfigurable nanotechnologies exhibit electrical
conduction for both types of charge carriers. These transistors [referred to as reconfigurable …

Recently, tellurium (Te), a group-VI element semiconductor, has garnered considerable
attention owing to its exceptional electrical properties and high stability, offering broad …