Graphene, one of the most promising two-dimensional (2D) nanomaterials, has gained
substantial attention in several areas of materials science. Due to its unique mechanical …

Wafer-scale single crystals, by virtue of their intrinsically high crystallinity and compatibility
on a wafer-scale processing size, have been extensively studied and applied in various …

We show how an oxide passivating layer on the Cu surface before the growth of h-BN by
chemical vapor deposition (CVD) can lead to increased domain sizes from 1 to 20 μm by …

Producing graphene with minimal crystalline defects and a controllable number of layers is
highly desirable for its integration in advanced technological applications. Here we show …

This chapter presents catalytic chemical vapor deposition (CVD) technique, which has been
applied to grow carbon nanomaterials including carbon nanotube (CNT), carbon nanofiber …

Abstract gC 3 N 4 was in situ rooted into hollow graphene (gC 3 N 4@ HG) for photocatalytic
H 2 O dissociation into H 2 by vacuum-filling thermal polymerization. Characterizations and …

Monolayer graphene grown by chemical vapor deposition has been intensively studied for
applications such as transparent conductive films, electronic devices, sensors, molecular …

Using the focused ion beam (FIB) to prepare plan-view transmission electron microscopy
(TEM) specimens is beneficial for obtaining structural information of two-dimensional atomic …

It is well-known that reducing the nucleation density is an effective way to enhance the
growth quality of graphene. In this work, we explore the mechanism of graphene nucleation …

Controllable synthesis of graphene with low-cost, simple procedure, and outstanding
reliability, is the foundation for basic researches and practical applications. Chemical vapor …