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Oxygen Deficient TiO2-x with Dual Reaction Sites for Activation of H2O2 to Degrade Organic Pollutants Qiu JY, Chen JH, Xiao BY, Li XX, Wan T, Qin FH, Mi Y, Huang ZY Catalysis Letters, 150(1), 222, 2020 |
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Both cell envelope and cytoplasm were the locations for chromium(VI) reduction by Bacillus sp. M6 Li MK, He ZG, Hu YT, Hu L, Zhong H Bioresource Technology, 273, 130, 2019 |
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Photocatalytic reduction of CO2 over exposed-crystal-face-controlled TiO2 nanorod having a brookite phase with co-catalyst loading Ohno T, Higo T, Murakami N, Saito H, Zhang QT, Yang Y, Tsubota T Applied Catalysis B: Environmental, 152, 309, 2014 |
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Electrodeposition of silver on stepped platinum electrode surfaces with (100)-oriented terraces: Generation of confined reaction sites Xu J, Abd-El-Latif AA, Chen YX, Baltruschat H Journal of Electroanalytical Chemistry, 716, 93, 2014 |
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From microstructure to the development of water and major reaction sites inside the catalyst layer of the cathode of a proton exchange membrane fuel cell Lee MS, Chen TH, Lee WS, Lin BS, Lau BY, Tsai PF, Wang GC Journal of Power Sources, 196(18), 7411, 2011 |
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Tungsten oxide bilayer electrodes for photoelectrochemical cells Yoo SJ, Yun SU, Sung YE, Ahn KS Journal of Power Sources, 195(16), 5422, 2010 |
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A photolithographic process for investigation of electrode reaction sites in solid oxide fuel cells Koep E, Compson C, Liu ML, Zhou ZP Solid State Ionics, 176(1-2), 1, 2005 |
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Microstructure and cathodic performance of La0.9Sr0.1MnO3 electrodes according to particle size of starting powder Choi JH, Jang JH, Ryu JH, Oh SM Journal of Power Sources, 87(1-2), 92, 2000 |
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Spatial-Distribution of N-2 and No Desorbing from a Rh(533) Surface Ikai M, Janssen NM, Nieuwenhuys BE, Tanaka K Journal of Chemical Physics, 106(1), 311, 1997 |