Metal–organic frameworks (MOFs) provide a platform to design new heterogeneous
catalysts for catalytic CO2 reduction, but selective formation of C2 valuable liquid fuel …

The development of high-temperature photodetectors can be beneficial for numerous
applications, such as aerospace engineering, military defence and harsh-environments …

The surface oxidation of 2D transition metal dichalcogenides (TMDs) has recently gained
tremendous technological and fundamental interest owing to the multi‐functional properties …

Thin and single MoS2 flakes are envisioned to contribute to the flexible nanoelectronics,
particularly in sensing, optoelectronics and energy harvesting. Thus, it is important to study …

The nature of the S-vacancy is central to controlling the electronic properties of monolayer
MoS2. Understanding the geometric and electronic structures of the S-vacancy on the basal …

Among transition metal oxides, MoO3 is a promising material due to its layered structure and
different oxidation states, making it suitable for different device applications. One of the …

Molybdenum trioxide (MoO3), an important transition metal oxide (TMO), has been
extensively investigated over the past few decades due to its potential in existing and …

High-temperature-resistant integrated circuits with excellent flexibility, a high integration
level (nanoscale transistors), and low power consumption are highly desired in many fields …

The intimate contact of components in a heterojunction photocatalyst is essential in
determining the photocatalytic performance. To build a face‐to‐face interface in a 2D–2D …

Molybdenum disulfide (MoS 2) has lately been at the epicenter of scientific research due to
its mesmerizing electronic, thermal, and physical properties, which have opened the door to …