Abstract
Metal organic framework (MOF) materials are a multi-component system integrating light harvesting and catalysis for photocatalytic hydrogen production, which is of great importance for sustainable development. In present work, Ni nanoparticles were first prepared by a chemical reduction method, and then an amino-rich Ni/Ti bimetallic MOF composite was synthesized by a one-pot method. The introduction of Ni leads to the rearrangement in electronic structure and thus to reduced charge recombination in the MOFs. The introduction of amino group as a photosensitizer expands the light absorption range. Thus, the absorption of NH2-MIL-125(Ti) after Ni modification extended from 473 to 624 nm, and the hydrogen evolution rate under visible light reached 699 μmol g−1 h−1, which is about 9 times that of parent NH2-MIL-125(Ti). Ti-MOFs show a new design potential to integrate light harvesting and catalytic components for photocatalytic hydrogen production.
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