| 22.8% efficient silicon solar cell AW Blakers, A Wang, AM Milne, J Zhao, MA Green Applied Physics Letters 55 (13), 1363-1365, 1989 | 1010 | 1989 |
| Rubidium multication perovskite with optimized bandgap for perovskite‐silicon tandem with over 26% efficiency T Duong, YL Wu, H Shen, J Peng, X Fu, D Jacobs, EC Wang, TC Kho, ... Advanced Energy Materials 7 (14), 1700228, 2017 | 551 | 2017 |
| Solar photovoltaics is ready to power a sustainable future M Victoria, N Haegel, IM Peters, R Sinton, A Jäger-Waldau, C del Canizo, ... Joule 5 (5), 1041-1056, 2021 | 355 | 2021 |
| 100% renewable electricity in Australia A Blakers, B Lu, M Stocks Energy 133, 471-482, 2017 | 291 | 2017 |
| High efficiency silicon solar cells A Blakers, N Zin, KR McIntosh, K Fong Energy Procedia 33, 1-10, 2013 | 267 | 2013 |
| Design, fabrication and characterisation of a 24.4% efficient interdigitated back contact solar cell E Franklin, K Fong, K McIntosh, A Fell, A Blakers, T Kho, D Walter, ... Progress in Photovoltaics: research and applications 24 (4), 411-427, 2016 | 231 | 2016 |
| Characterization of 23-percent efficient silicon solar cells MA Green, AW Blakers, J Zhao, AM Milne, A Wang, X Dai IEEE Transactions on Electron Devices 37 (2), 331-336, 1990 | 218 | 1990 |
| Development of the PERC solar cell A Blakers IEEE Journal of Photovoltaics 9 (3), 629-635, 2019 | 216 | 2019 |
| 20% efficiency silicon solar cells AW Blakers, MA Green Applied physics letters 48 (3), 215-217, 1986 | 208 | 1986 |
| A review of pumped hydro energy storage A Blakers, M Stocks, B Lu, C Cheng Progress in Energy 3 (2), 022003, 2021 | 195 | 2021 |
| A review of thin-film crystalline silicon for solar cell applications. Part 1: Native substrates MJ McCann, KR Catchpole, KJ Weber, AW Blakers Solar Energy Materials and Solar Cells 68 (2), 135-171, 2001 | 190 | 2001 |
| A review of thin-film crystalline silicon for solar cell applications. Part 2: Foreign substrates KR Catchpole, MJ McCann, KJ Weber, AW Blakers Solar energy materials and solar cells 68 (2), 173-215, 2001 | 176 | 2001 |
| Towards a 20 percent efficient silicon solar cell MA Green, AW Blakers, S Jiqun, EM Keller, SR Wenham, RB Godfrey, ... 17th Photovoltaic Specialists Conference, 386-389, 1984 | 166* | 1984 |
| Effect of soiling in CPV systems M Vivar, R Herrero, I Antón, F Martínez-Moreno, R Moretón, G Sala, ... Solar Energy 84 (7), 1327-1335, 2010 | 159 | 2010 |
| Geographic information system algorithms to locate prospective sites for pumped hydro energy storage B Lu, M Stocks, A Blakers, K Anderson Applied energy 222, 300-312, 2018 | 135 | 2018 |
| High efficiency perovskite‐silicon tandem solar cells: effect of surface coating versus bulk incorporation of 2D perovskite T Duong, H Pham, TC Kho, P Phang, KC Fong, D Yan, Y Yin, J Peng, ... Advanced Energy Materials 10 (9), 1903553, 2020 | 126 | 2020 |
| Method of making thin silicon sheets for solar cells AW Blakers, KJ Weber US Patent 7,169,669, 2007 | 120 | 2007 |
| Global atlas of closed-loop pumped hydro energy storage M Stocks, R Stocks, B Lu, C Cheng, A Blakers Joule 5 (1), 270-284, 2021 | 110 | 2021 |
| Semitransparent perovskite solar cell with sputtered front and rear electrodes for a four-terminal tandem T Duong, N Lal, D Grant, D Jacobs, P Zheng, S Rahman, H Shen, ... IEEE Journal of Photovoltaics 6 (3), 679-687, 2016 | 110 | 2016 |
| Shading losses of solar‐cell metal grids AW Blakers Journal of applied physics 71 (10), 5237-5241, 1992 | 110 | 1992 |
Matthew StocksAustralian National University在 anu.edu.au 的电子邮件经过验证
