Protein-inorganic hybrid nanomaterials are a new type of functional materials that combine the advantages of inorganic, organic polymers and nanomaterials. We herein report a simple one-pot method for synthesizing organic-inorganic...
The discovery of
efficient photocatalysts is a promising key approach
to solve the environmental crisis caused by hazardous organic dyes.
Herein, we have for the first time created ZnO mesocrystals with a
novel apple-like morphology. We have developed a one-pot biomineralization
route to synthesize ZnO nanostructures at room temperature by using
the rod-like protein collagen as the template. The shape of ZnO mesocrystals
can be conveniently tuned from fusiform-like and kiwi-like to orange-like,
apple-like, and snack-like structures. The apple-like ZnO mesocrystals
show a significantly better photodegradation efficiency than the commercial
ZnO powder as well as other nanostructured ZnO materials for both
rhodamine B (RhB) and methyl orange (MO). Furthermore, the apple-like
zinc-oxide mesocrystals can degrade all of the tested eight different
types of organic dyes (RhB, rhodamine 6G, methylene blue, Coomassie
brilliant blue R250, BPB, MO, Li Chunhong S, and carmine) simply under
the exposure of sunlight, demonstrating their superior photodegradation
prowess, environmental amiability, and energy-saving features. The
novel robust and versatile photocatalyst has greatly advanced our
abilities for the elimination of organic dyes. The green, one-pot
strategy provides a convenient method for the construction of novel
metal-oxide nanostructures with promising applications in environmental
protection.
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