Graphdiyne (GDY), a rising star of carbon allotropes, features a two-dimensional all-carbon
network with the cohybridization of sp and sp2 carbon atoms and represents a trend and …

Graphdiyne (GDY) with a direct band gap, excellent carrier mobility and uniform pores, is
regarded as a promising photocatalytic material for solar energy conversion, while the …

Hydrogen energy is environmental-friendly and considered an attractive alternative to fossil
fuels. Among the feasible technologies for hydrogen generation, photocatalysis-derived …

Graphdiyne is an emerging material widely used in photocatalysis. Its excellent
physicochemical properties, such as nonuniform electron distribution, uniform pore …

Photoelectrochemical (PEC) water splitting is an appealing approach for “green” hydrogen
generation. The natural p-type semiconductor of Cu2O is one of the most promising …

The construction of heterojunctions is often considered an effective strategy for achieving
solar driven photocatalytic decomposition of water. Graphdiyne has unique properties such …

With a direct band gap, superior charge carrier mobility, and uniformly distributed pores,
graphdiyne (GDY) has stimulated tremendous interest from the scientific community …

Refining carrier transfer in bandgap-broken heterojunctions, which consist of two
semiconductors with broken bandgaps, is crucial yet highly challenging for photocatalysis …

Heterogeneous semiconductor interfaces with built-in electric fields are central to promoting
directional carrier migration and separation for charge-induced redox reactions …

Photocatalytic water splitting is a prospective approach to address the energy and
environmental challenges. Herein, an amorphous Ni@ NiS x cocatalyst has been fabricated …