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Evolution of ZnO flowerets from dealloying of Cu-Zn alloy powder Bhushan B, Jahan K, Katiyar PK, Murty BS, Mondal K Advanced Powder Technology, 31(8), 3093, 2020 |
32 |
Enhanced Effect of Ni3Se4 Modified CdS Nanorod for Efficient Hydrogen Production Wang HE Catalysis Letters, 150(3), 849, 2020 |
33 |
Yttrium Oxide Supported La2O3 Nanomaterials for Catalytic Oxidative Cracking of n-Propane to Olefins Al-Sultan FS, Basahel SN, Narasimharao K Catalysis Letters, 150(1), 185, 2020 |
34 |
Ni-doped ceria nanorods for the WGS reaction: E ffect of Ni distribution in methane suppression Romero-Nunez A, Gomez-Cortes A, Tiznado H, Diaz G Catalysis Today, 349, 10, 2020 |
35 |
Modelling rutile TiO(2)nanorod growth preferences: A density functional theory study Chou HH, Liou SYH, Calatayud M Catalysis Today, 356, 49, 2020 |
36 |
alpha-MnO2 nanorods supported on three dimensional graphene as high activity and durability cathode electrocatalysts for magnesium-air fuel cells Zhang TW, Li ZF, Sun P, Wang LK, Niu XL, Wang SW Catalysis Today, 355, 304, 2020 |
37 |
Performance enhancement of methane dry reforming reaction for syngas production over Ir/Ce0.9La0.1O2-nanorods catalysts Wang FG, Wang Y, Zhang LJ, Zhu JY, Han BL, Fan WQ, Xu LL, Yu H, Cai WJ, Li ZC, Deng ZY, Shi WD Catalysis Today, 355, 502, 2020 |
38 |
Solar-charging Aqueous Redox Flow Battery with Optimal Redox Couple Combination Gao LN, Zhang XR, Zhao XY, Tao S, Lu J Chemistry Letters, 49(3), 248, 2020 |
39 |
Salt-triggered Active Plasmonic Systems Based on the Assembly/Disassembly of Gold Nanorods in a DNA Brush Layer on a Solid Substrate Nakamura S, Mitomo H, Yonamine Y, Ijiro K Chemistry Letters, 49(7), 749, 2020 |
40 |
Synthesis of CaFe2O4 Nanorod Thin Film Using Molten Salt Method and Analysis of Its Photoelectrochemical Properties Yamaguchi A, Sako H, Miyauchi M Chemistry Letters, 49(12), 1462, 2020 |