Since being rediscovered as an emerging 2D material, black phosphorus (BP), with an
extraordinary energy structure and unusually strong interlayer interactions, offers new …

Intercalation is an effective approach to tune the physical and chemical properties of 2D
materials due to their abundant van der Waals gaps that can host high‐density intercalated …

Black phosphorus (BP), a burgeoning class of two-dimensional semiconductors, possesses
favorable properties such as large specific surface area, high charge carrier mobility, and …

Black phosphorus (BP) is a two-dimensional (2D) layered semiconductor with tunable direct
bandgap, high carrier mobility, balanced on/off ratio and significant crystal anisotropy. These …

Singlet fission (SF) is an appealing process where one photoexcited singlet transforms to
two triplets, which can overcome thermalization energy loss and improve solar cell …

Hot charge carriers (HC) are photoexcited electrons and holes that exist in nonequilibrium
high-energy states of photoactive materials. Prolonged cooling time and rapid extraction are …

We investigated the effects of biaxial strain on electronic structure of ZrS 2, ZrSe 2, HfS 2,
HfSe 2, ZrSSe and HfSSe monolayers. Similar to ZrS 2, ZrSe 2, HfS 2, HfSe 2 monolayers …

Atomically thin two-dimensional transition metal dichalcogenides (TMDs) have shown great
potential for optoelectronic applications, including photodetectors, phototransistors, and …

Traditional imaging systems struggle in weak or complex lighting environments due to their
fixed spectral responses, resulting in spectral mismatches and degraded image quality. To …

Carrier multiplication (CM) in semiconductors, the process of absorbing a single high-energy
photon to form two or more electron–hole pairs, offers great potential for the high-response …