| CO2 capture and photocatalytic reduction using bifunctional TiO2/MOF nanocomposites under UV–vis irradiation A Crake, KC Christoforidis, A Kafizas, S Zafeiratos, C Petit Applied Catalysis B: Environmental 210, 131-140, 2017 | 315 | 2017 |
| Titanium dioxide/carbon nitride nanosheet nanocomposites for gas phase CO2 photoreduction under UV-visible irradiation A Crake, KC Christoforidis, R Godin, B Moss, A Kafizas, S Zafeiratos, ... Applied Catalysis B: Environmental 242, 369-378, 2019 | 131 | 2019 |
| The Effect of Materials Architecture in TiO2/MOF Composites on CO2 Photoreduction and Charge Transfer A Crake, KC Christoforidis, A Gregg, B Moss, A Kafizas, C Petit Small 15 (11), 1805473, 2019 | 108 | 2019 |
| Metal-organic frameworks based materials for photocatalytic CO2 reduction A Crake Materials Science and Technology 33 (15), 1737-1749, 2017 | 46 | 2017 |
| MOF‐Based Heterojunctions: The Effect of Materials Architecture in TiO2/MOF Composites on CO2 Photoreduction and Charge Transfer (Small 11/2019) A Crake, KC Christoforidis, A Gregg, B Moss, A Kafizas, C Petit Small 15 (11), 1970060, 2019 | 2 | 2019 |
| CO2 capture and photoconversion using multifunctional materials A Crake Imperial College London, 2018 | | 2018 |
| Combined CO2 capture and photoconversion using bifunctional porous materials A Crake, K Christofidis, A Kafizas, S Zafeiratos, C Petit | | |
Dr. Andreas KafizasImperial College LondonVerified email at imperial.ac.uk
