The exploration of highly active and durable cathodic oxygen reduction reaction (ORR)
catalysts with economical production costs is still the bottleneck to realize the large-scale …

Graphene provides a unique platform for the detailed study of its dopants at the atomic level.
Previously, doped materials including Si, and 0D-1D carbon nanomaterials presented …

To understand the origin of the cycling performance improvement observed in lithium-sulfur
(Li–S) batteries based on N-doped carbon materials, the interactions between lithium …

Multilayer graphene (MLGR) and its bulk analog, highly oriented pyrolytic graphite (HOPG),
were treated by radio frequency activated low pressure N 2 gas plasma (at negative bias 0 …

Nitrogen-doped graphene (N-graphene) has attractive properties that has been widely
studied over the years. However, its possible formation process still remains unclear. Here …

Directly incorporating heteroatoms into the hexagonal lattice of graphene during growth has
been widely used to tune its electrical properties with superior do** stability, uniformity …

The greatest challenge in graphene-based material synthesis is achieving large surface
area of high conductivity. Thus, tuning physico-electrochemical properties of these materials …

Superior catalytic activity and high chemical stability of inexpensive electrocatalysts for the
oxygen reduction reaction (ORR) are crucial to the large-scale practical application of fuel …

Graphene as a material for optoelectronic design applications has been significantly
restricted owing to zero bandgap and non-compatible handling procedures compared with …

We investigate the structural, electronic, and transport properties of substitutional defects in
SiC-graphene by means of scanning tunneling microscopy and magnetotransport …