Biomass, a naturally abundant, sustainable and clean resource has great potential as an
alternative to replace the limited fossil feedstock for value‐added chemicals and fuels …

Using renewable solar energy for clean hydrogen (H 2) fuel production via photocatalysis is
a promising low carbon intensity strategy to address the energy crisis and environmental …

Heterostructures constructed by conventional methods, particularly those randomly
distributed manner on the catalyst surface as well as forming core–shell structures, lead to …

Biomass photorefinery over a sustainable biochar (BC)-based heterojunction provides a
promising approach to alleviate the worsening environment and energy crisis via …

Single-atom photocatalysts (SAPCs) have attracted great interests due to their remarkable
atom utilization efficiency, excellent activity, and selectivity, yet no application in …

In recent years, three‐dimensionally ordered macroporous (3DOM) materials have attracted
tremendous interest in the field of photocatalysis due to the periodic spatial structure and …

The utilization of triboelectrification and electrostatic inductive coupling to convert
mechanical energy into electrical energy has generated significant attention, inspiring the …

Abstract Development of new technologies for conversion of biomass− based compounds
into energy sources and basic chemicals is important for a circular economy. In this study, a …

Biomass photorefinery to produce fuels and valuable chemicals is a promising approach to
alleviating the energy crisis and achieving carbon neutrality. However, precisely modulating …

Photorefining of biomass is increasingly recognized as a pivotal technology for the
simultaneous production of hydrogen and value-added chemicals. The intrinsic …