Driving force and growth mechanism for spontaneous oxide nanowire formation during the thermal oxidation of metals L Yuan, Y Wang, R Mema, G Zhou Acta Materialia 59 (6), 2491-2500, 2011 | 275 | 2011 |
The origin of hematite nanowire growth during the thermal oxidation of iron L Yuan, Y Wang, R Cai, Q Jiang, J Wang, B Li, A Sharma, G Zhou Materials Science and Engineering: B 177 (3), 327-336, 2012 | 141 | 2012 |
Effect of surface stresses on CuO nanowire growth in the thermal oxidation of copper R Mema, L Yuan, Q Du, Y Wang, G Zhou Chemical Physics Letters 512 (1-3), 87-91, 2011 | 136 | 2011 |
Enhanced CuO nanowire formation by thermal oxidation of roughened copper L Yuan, G Zhou Journal of The Electrochemical Society 159 (4), C205, 2012 | 70 | 2012 |
Morphological transformation of hematite nanostructures during oxidation of iron L Yuan, R Cai, JI Jang, W Zhu, C Wang, Y Wang, G Zhou Nanoscale 5 (16), 7581-7588, 2013 | 58 | 2013 |
Atomic Structural Evolution during the Reduction of α-Fe2O3 Nanowires W Zhu, J Winterstein, I Maimon, Q Yin, L Yuan, AN Kolmogorov, ... The Journal of Physical Chemistry C 120 (27), 14854-14862, 2016 | 50 | 2016 |
Temperature-dependent growth mechanism and microstructure of ZnO nanostructures grown from the thermal oxidation of zinc L Yuan, C Wang, R Cai, Y Wang, G Zhou Journal of crystal growth 390, 101-108, 2014 | 48 | 2014 |
Spontaneous ZnO nanowire formation during oxidation of Cu-Zn alloy L Yuan, C Wang, R Cai, Y Wang, G Zhou Journal of Applied Physics 114 (2), 2013 | 39 | 2013 |
Atomic‐scale mechanism of unidirectional oxide growth X Sun, W Zhu, D Wu, Z Liu, X Chen, L Yuan, G Wang, R Sharma, G Zhou Advanced functional materials 30 (4), 1906504, 2020 | 34 | 2020 |
Effect of Dispersant Concentration on Preparation of an Ultrahigh Density ZnO–Al2O3 Target by Slip Casting YH Sun, WH Xiong, CH Li, L Yuan Journal of the American Ceramic Society 92 (9), 2168-2171, 2009 | 32 | 2009 |
In Situ Atomic-Scale Probing of the Reduction Dynamics of Two-Dimensional Fe2O3 Nanostructures W Zhu, JP Winterstein, WCD Yang, L Yuan, R Sharma, G Zhou ACS nano 11 (1), 656-664, 2017 | 31 | 2017 |
The growth of hematite nanobelts and nanowires—tune the shape via oxygen gas pressure L Yuan, Q Jiang, J Wang, G Zhou Journal of Materials Research 27 (7), 1014-1021, 2012 | 31 | 2012 |
CuO reduction induced formation of CuO/Cu2O hybrid oxides L Yuan, Q Yin, Y Wang, G Zhou Chemical Physics Letters 590, 92-96, 2013 | 29 | 2013 |
Novel hybrid nanocomposites of polyhedral Cu 2 O nanoparticles–CuO nanowires with enhanced photoactivity C Wang, Y Wang, X Liu, F Diao, L Yuan, G Zhou Physical Chemistry Chemical Physics 16 (33), 17487-17492, 2014 | 23 | 2014 |
Structure versus properties in α-Fe2O3 nanowires and nanoblades C Wang, Y Wang, X Liu, H Yang, J Sun, L Yuan, G Zhou, F Rosei Nanotechnology 27 (3), 035702, 2015 | 22 | 2015 |
Defect-induced enhanced photocatalytic activities of reduced α-Fe2O3 nanoblades H Feng, Y Wang, C Wang, F Diao, W Zhu, P Mu, L Yuan, G Zhou, F Rosei Nanotechnology 27 (29), 295703, 2016 | 19 | 2016 |
Enhancing the oxidation resistance of copper by using sandblasted copper surfaces L Yuan, X Chen, S Maganty, J Cho, C Ke, G Zhou Applied Surface Science 357, 2160-2168, 2015 | 19 | 2015 |
Formation of modulated structures induced by oxygen vacancies in α-Fe2O3 nanowires T Li, H Feng, Y Wang, C Wang, W Zhu, L Yuan, G Zhou Journal of Crystal Growth 498, 10-16, 2018 | 17 | 2018 |
Formation of modulated structures in single-crystalline hexagonal α-Fe2O3 nanowires RS Cai, T Li, YQ Wang, C Wang, L Yuan, GW Zhou Journal of Nanoparticle Research 14, 1-11, 2012 | 15 | 2012 |
Coincidence-Site-Lattice Twist Boundaries in Bicrystalline α-Fe2O3 Nanoblades Y Wang, C Wang, L Yuan, R Cai, X Liu, C Li, G Zhou The Journal of Physical Chemistry C 118 (11), 5796-5801, 2014 | 12 | 2014 |