The ability to change material properties through phase engineering has long been sought,
with the goal of ad hoc tunability of the physical and chemical properties of the transformed …

The unique chemical and physical properties of graphene and its derivatives (graphene
oxide, heteroatom‐doped graphene, and functionalized graphene) have stimulated …

The integration of graphene and metal–organic frameworks (MOFs) has numerous
implications across various domains, but fabricating such assemblies is often complicated …

Semiconductor-based photocatalysts have a narrow absorption range of sunlight and low
light utilization efficiency, due to the limitation of band gap of semiconductor materials. Using …

Hydrogenated graphene is easy to prepare and chemically stable. Besides, hydrogenation
of graphene can open the band gap, which is vital for electronic and optoelectronic …

Porous graphene (PG) nanosheets have become one of the superstars in the graphene
material family due to their diverse pore structures and unique properties. Their most …

The adsorption attributes of methyl naphthalene and naphthalene molecules on P-
Germanane sheets are explored based on the density functional theory method. The novel P …

We studied the adsorption attributes of guanine, adenine, thymine, cytosine, and uracil on
chair graphane nanosheets based on the density functional theory (DFT) method. The …

The research community has witnessed an exceptional increase in exploring graphene
related two-dimensional materials (GR2Ms) in many innovative applications and emerging …

Three-dimensional (3D) graphene is one of the most important nanomaterials. This feature
article highlights the advancements, with an emphasis on contributions from our group, in …