Dong, ChangshengChangshengDongZhong, MinlinMinlinZhongHuang, TingTingHuangMa, MingxingMingxingMaWortmann, DirkDirkWortmannBrajdic, MihaelMihaelBrajdicKelbassa, IngomarIngomarKelbassa2022-05-052022-05-052011-11-07ACS Applied Materials and Interfaces 3 (11): 4332-4338 (2011-11-23)http://hdl.handle.net/11420/12468Micro-nano hierarchical structure on the substrate was fabricated by a hybrid approach including laser deposition, laser ablation and chemical dealloying. The structure consists of micro bumps with a width of 50 μm and a height of 100 μm, and nanoporous structures with a size of 70-150 nm on the micro bumps. XRD and XPS results confirm that these hierarchical structures were made of Cu 2O. For use in comparison, three additional structures with feature size in milliscale, microscale, and nanoscale were also prepared respectively by the proposed methods. Under visible light, the micro-nano structure exhibited the best performance of photodegradation. It is the result of the large specific surface and the catalytic reaction driven by the cuprous oxides.en1944-825220111143324338Soc.dealloyinglaser ablationmicro-nano hierarchical structurephoto degradationPhysikJournal Article10.1021/am200997wOther