The past several years have witnessed great progress in electrocatalytic applications of
transition-metal-based materials through electronic modulation resulting from dd and dp …

Metal–support interactions (MSIs) have become one of the research directions of great
interest in the field of heterogeneous catalysis and are significant for the design of supported …

Dry reforming of methane (DRM) favourably harnesses greenhouse gases (CH 4/CO 2) to
produce syngas (H 2/CO), but suffers from high energy consumption and coking. Here, we …

Carbon dioxide, as an abundant and nontoxic C1 resource, can be extensively applied to
produce C1 building blocks via direct and indirect routes. On account of the stable electronic …

The bimetallic nanoparticles modified polymetallic oxides are considered to be an attractive
method to improve sensing performance. In this study, Bi 2 MoO 6 (BMO) microspheres with …

Hydrogenolysis is an effective method for converting polyolefins into high‐value chemicals.
For the supported catalysts commonly used, the size of active metals is of great importance …

Formaldehyde is a carcinogenic chemical that seriously endangers the health of human
body, the elimination of formaldehyde pollutant in enclosed spaces provides safety for …

Late-transition-metal oxides have emerged as promising materials for enabling direct
catalytic conversions of light alkanes to value-added products due to the ability of certain …

Producing syngas from dry reforming of methane is fascinating but challenging because of
coking and sintering. Here, carbonising Ni based catalysts by auto-reduction are fabricated …