The exfoliation and identification of the two-dimensional (2D) single atomic layer of carbon
have opened the opportunity to explore graphene and related 2D materials due to their …

Graphene has demonstrated great potential in next-generation electronics due to its unique
two-dimensional structure and properties including a zero-gap band structure, high electron …

In the last three decades, zero-dimensional, one-dimensional, and two-dimensional carbon
nanomaterials (ie, fullerenes, carbon nanotubes, and graphene, respectively) have attracted …

After a decade of intensive research on two-dimensional (2D) materials inspired by the
discovery of graphene, the field of 2D electronics has reached a stage with booming …

Silicon nanostructures exhibit promising application potentials in many fields in comparison
with their bulk counterpart or other semiconductor nanostructures. Therefore, the exploiting …

The progress of the Internet‐of‐Things in the past few years has necessitated the support of
high‐performance sensors. Schottky‐contacted nanowire sensors have attracted …

Graphene is the thinnest two-dimensional (2D) carbon material and has many advantages
including high carrier mobilities and conductivity, high optical transparency, excellent …

As one of the most appealing two-dimensional materials, graphene (Gr) has attracted
tremendous research interest in optoelectronic device applications for its plenty of …

The recent rise of semiconductor nanowires opens new opportunities for realizing high
efficiency photovoltaic devices at low cost due to the unique one-dimensional structure with …

Due to its unique atom-thick 2D structure and remarkable physicochemical properties,
graphene has been making a profound impact in many areas of science and technology. In …