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Informations Papers

Cobalt–Nickel Layered Double Hydroxides Modified on TiO2 Nanotube Arrays for Highly Efficient and Stable PEC Water Splitting

TiO2-based photoanodes have attracted extensive attention worldwide for photoelectrochemical (PEC) water splitting, but these materials still suffer from poor electron–hole separation and low photoconversion efficiency. Here, the high PEC water splitting


Co/Co9S8@S,N-doped porous graphene sheets derived from S, N dual organic ligands assembled Co-MOFs as superior electrocatalysts for full water splitti

S, N dual organic ligands were used to construct Co-MOFs on GO sheets at room temperature. Co/Co9S8@S,N-doped porous graphene sheets were derived from Co-MOFs@GO. Co/Co9S8@SNGS-1000 demonstrated bifunctional catalytic activities of OER and HER.


Solution growth of peony-like copper hydroxyl-phosphate (Cu2(OH)PO4) flowers on Cu foil and their photocatalytic activity under visible light

Noval self-assemble peony-like three-dimensional(3D) copper hydroxyl phosphate(Cu2(OH)PO4) was synthe-sized on the copper foil by a solution-growth method. The self-aggregate peony-like 3D Cu2(OH)PO4 flowers with the diameter size up to 10-20μm were compo


Polyoxometalate-induced ‘cage-within-cage’ metal–organic frameworks with high efficiency towards CO2 photoreduction

Photocatalytic CO2 reduction (CO2RR) into high-value products is of great significance not only in addressing global warming but also in developing sustainable energy resources. Herein, two novel metal–organic frameworks (MOFs) induced by polyoxometalates


Construction of p-n junctions in single-unit-cell ZnIn2S4 nanosheet arrays toward promoted photoelectrochemical performance


Self-adaptive dual-metal-site pairs in metal-organic frameworks for selective CO2 photoreduction to CH4


Nanolayered Heterostructures of N‑Doped TiO2 and N‑Doped Carbon for Hydrogen Evolution

Nanolayered Heterostructures of N‑Doped TiO2 and N‑Doped Carbon for Hydrogen Evolution


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