TY - JOUR T1 - Following Charge Separation on the Nanoscale in Cu(2)O-Au Nanoframe Hollow Nanoparticles JF - Nano Letters Y1 - 2011 A1 - Mahmoud, M A A1 - Qian, Wei A1 - El-Sayed, Mostafa A AB - Cu(2)O-Au nanoframes with different nanolayer thicknesses of Cu(2)O were prepared, and their photocatalytic properties in aqueous solutions were studied. Cu(2)O semiconductor excitation leads to electron-hole separation. In aqueous solution, the hole is known to oxidize water to produce hydroxyl radicals whose concentration (and that of the holes) can be monitored by the rate of the degradation of dissolved methylene blue dye. The exciton lifetime is determined by femtosecond techniques and is determined by electron-hole recombination which depends on the rates of a number of competing processes such as, electron or hole transfer to an acceptor such as a gold nanoframe and/or the electron or hole trapping processes at the Cu(2)O-Au nanoframe interface. We measured the exciton lifetime as a function of the average Cu(2)O-Au layer separation. A good correlation was found between the rate of the photocatalytic degradation of methylene blue and the exciton lifetime. The exciton lifetime is found to increase as the Cu(2)O thickness is increased. This leads to an increase in the electron-hole separation time and thus an increase in the hole (and so the hydroxyl radical) concentration leading to an observed enhanced rate of the dye degradation. VL - 11 SN - 1530-6984 N1 - A. Mahmoud, Mahmoud Qian, Wei El-Sayed, Mostafa A. M3 - 10.1021/nl201642r ER -