Solar‐driven photocatalytic hydrogen evolution is important to bring solar‐energy‐to‐fuel
energy‐conversion processes to reality. However, there is a lack of highly efficient, stable …

Development of noble metal free, novel and highly efficient co-catalysts that favor high
performance is of great significance towards elevated photocatalytic hydrogen production …

The utilization of non-precious and noble-metal free catalysts for the photo conversion of
water into hydrogen is of significant interest. In particular, the typical layered MoS 2 has …

Heterojunction photocatalysts are widely adopted for efficient water splitting, but ion
migration can seriously threaten the stability of heterojunctions, as with the well-known low …

We demonstrate a simple and effective approach to modulate the active sites and electronic
properties of MoS2 using hydrazine assisted liquid exfoliation for enhancing its co-catalytic …

Conversion of solar energy to hydrogen requires efficient, low-cost and earth-abundant H-
producing photocatalysts. Herein, a novel noble metal-free photocatalyst 1T–MoS2/CdS …

The efficiency of CdS-based photocatalysts for H 2 evolution is limited by the ultrafast charge
recombination. Here, we demonstrated the one-pot synthesis of a novel MoS 2/CdS …

Fabrication of core–shell heteronanostructures with excellent optical properties and light
induced charge separation effects have recently emerged as promising materials for solar to …

Searching photocatalysts for efficient hydrogen production has been a challenging issue for
solar-energy harvesting. Using co-catalyst is proven to be an effective approach to improve …

The molybdenum sulfide (MoS 2) is a promising low-cost photocatalyst aimed at the
hydrogen production reactions, however, obtaining a detailed understanding of its catalytic …