Architecting Z-scheme heterojunction can restrain the recombination of photoinduced
carriers to improve the photocatalytic performance. However, it still lacks high-efficiency …

Photocatalytic reduction of CO 2 to the useful fuels has been supposed to be a hopeful
approach to address currently environmental and energy problems. However, photocatalytic …

The insufficient separation of photogenerated charge carriers and faint CO 2 capture
remains the major obstacles for photocatalytic conversion of CO 2 into solar fuel. Rational …

CO2 possesses extraordinary thermodynamic stability, and its reduction reaction involves
multiple electron-transfer processes. Thus, high-density electron occupation on a catalyst …

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 …

A novel series of gC 3 N 4/BiOBr (CN/BOB) Z-scheme heterojunction catalysts with two-
dimensional/two-dimensional (2D/2D) morphology were synthesized by an in-situ hydrolysis …

The design of efficient and stable photocatalysts for robust CO2 reduction without sacrifice
reagent or extra photosensitizer is still challenging. Herein, a single-atom catalyst of isolated …

Abstract A ternary Bi/AgBiS 2/P25 has been successfully designed by a one-step
solvothermal treatment for enhanced photocatalytic CO 2 reduction. Bi/AgBiS 2 decoration …

Direct Z-scheme heterojunction can primely facilitate separation efficiency of the
photogenerated carriers and maximize the redox ability of as-prepared photocatalyst, which …

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