In this article, ultrascaled junctionless (JL) field-effect phototransistors based on carbon
nanotube/nanoribbons with sub-10 nm photogate lengths were computationally assessed …

Atomic force microscope (AFM) has been defined as the one of the most powerful
instruments to explore micro/nanoworld in various fields. To lower imaging noise, AFMs are …

In this paper, new nanoscale phototransistors based on carbon nanotube (CNT) are
proposed and assessed using a quantum simulation-based computational methodology …

Infrared (IR) cameras have versatile applications; however, the low performance and high
cost of conventional photodetectors have prevented their widespread utilization in various …

Functional and easy‐to‐integrate nanodevices operating in the telecom wavelength ranges
are highly desirable. Indeed, the pursuit for faster, cheaper, and smaller transceivers for …

Conventional scanning probe microscopy (SPM)-based nanomanipulations always have to
face scanner accuracy problems such as hysteresis, nonlinearity, and thermal drift. Although …

Atomic force microscopy (AFM) is a powerful measurement instrument, which has been
widely implemented in various fields. To enhance the maneuverability, an AFM can be …

The influence of the optical absorption exhibited by multi-wall carbon nanotubes on their
photothermal, photoconductive and nonlinear optical properties was evaluated. The …

As the advancement of nanotechnology, it is possible to manipulate structures at nanoscale
with various nanomanipulation tools such as scanning probe microscopes. To achieve …

Atomic force microscopy (AFM) based nanomanipulations have been successfully applied to
various fields such as physics, material science and biomedical studies. In general, the …