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A millisecond‐laser‐direct‐writing approach under ambient conditions for designing of a 3D Al hybrid nanostructure supporting dense hot spots with high electric field enhancements over a large area is reported by Jing Yang and co‐workers in article number 1605703. The plasmon‐enhanced light harvesting ranges from deep UV to the visible, and leads to an averaged SERS performance that is comparable...
Plasmonic materials possessing dense hot spots with high field enhancement over a large area are highly desirable for ultrasensitive biochemical sensing and efficient solar energy conversion; particularly those based on low‐cost noncoinage metals with high natural abundance are of considerable practical significance. Here, 3D aluminum hybrid nanostructures (3D‐Al‐HNSs) with high density of plasmonic...
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