Exploring highly efficient heterostructured photocatalysts for converting CO2 to value-added
chemicals has long been pursued, which is mainly limited by inefficient visible/near-infrared …

Slow charge kinetics and unfavorable CO2 adsorption/activation strongly inhibit CO2
photoreduction. In this study, a strainengineered Cs3Bi2Br9/hierarchically porous BiVO4 (s …

The development of advanced photocatalysts for CO 2 reduction (CO 2 R) has attracted
intensive interest but is severely plagued by the intrinsically narrow photo-responsive range …

Heterojunction manipulation has been deemed as a promising approach in exploring
efficient photocatalysts for CO2 reduction. In this article, a novel step-scheme (S-scheme) …

The improvements of charge transfer efficiency and CO 2 capture ability are of particular
importance to the photocatalytic CO 2 reduction activity of semiconductor photocatalysts …

Given the global warming caused by excess CO2 accumulation in the atmosphere, it is
essential to reduce CO2 by capturing and converting it to chemical feedstock using solar …

Heterojunction construction is a universal and effective approach to achieve high-efficiency
photocatalysts. Towards these well-designed heterojunctions, modulation on steering …

The highly efficient spatial carrier separation and abundant active sites are significant for
CO2 photocatalytic reduction efficiency. Herein, an ultrathin Bi2O3 nanosheet/Bi2WO6 …

Developing semiconductor-based photocatalysts with high activity and stability to reduce CO
2 into valuable solar fuels is of great significance because of the increasingly serious energy …

Artificial photoreduction of CO 2 is confined by low separation efficiency of photoinduced
charge carriers and poor activation of CO 2 over photocatalysts. Herein, a brilliant ultrathin …