HRTEM evaluation of soot particles produced by the non-premixed combustion of liquid fuels ML Botero, D Chen, S González-Calera, D Jefferson, M Kraft Carbon 96, 459-473, 2016 | 176 | 2016 |
Synergistic combustion of droplets of ethanol, diesel and biodiesel mixtures ML Botero, Y Huang, DL Zhu, A Molina, CK Law Fuel 94, 342-347, 2012 | 150 | 2012 |
Internal structure of soot particles in a diffusion flame ML Botero, Y Sheng, J Akroyd, J Martin, JAH Dreyer, W Yang, M Kraft Carbon 141, 635-642, 2019 | 121 | 2019 |
PAH structure analysis of soot in a non-premixed flame using high-resolution transmission electron microscopy and optical band gap analysis ML Botero, EM Adkins, S Gonzalez-Calera, H Miller, M Kraft Combustion and Flame 164, 250-258, 2016 | 86 | 2016 |
Sooting tendency of paraffin components of diesel and gasoline in diffusion flames ML Botero, S Mosbach, M Kraft Fuel 126, 8-15, 2014 | 74 | 2014 |
Sooting characteristics of polyoxymethylene dimethyl ether blends with diesel in a diffusion flame YR Tan, ML Botero, Y Sheng, JAH Dreyer, R Xu, W Yang, M Kraft Fuel 224, 499-506, 2018 | 68 | 2018 |
Experimental and numerical study of the evolution of soot primary particles in a diffusion flame ML Botero, N Eaves, JAH Dreyer, Y Sheng, J Akroyd, W Yang, M Kraft Proceedings of the Combustion Institute 37 (2), 2047-2055, 2019 | 65 | 2019 |
An improved methodology for determining threshold sooting indices from smoke point lamps RJ Watson, ML Botero, CJ Ness, NM Morgan, M Kraft Fuel 111, 120-130, 2013 | 63 | 2013 |
Sooting tendency and particle size distributions of n-heptane/toluene mixtures burned in a wick-fed diffusion flame ML Botero, S Mosbach, M Kraft Fuel 169, 111-119, 2016 | 60 | 2016 |
Sooting tendency of surrogates for the aromatic fractions of diesel and gasoline in a wick-fed diffusion flame ML Botero, S Mosbach, J Akroyd, M Kraft Fuel 153, 31-39, 2015 | 60 | 2015 |
Polymorphism of nanocrystalline TiO 2 prepared in a stagnation flame: formation of the TiO 2-II phase MY Manuputty, JAH Dreyer, Y Sheng, EJ Bringley, ML Botero, J Akroyd, ... Chemical science 10 (5), 1342-1350, 2019 | 57 | 2019 |
Capacidad reductora de 15 frutas tropicales MI Botero, SC Ricaurte, CE Monsalve, B Rojano Scientia et Technica 1 (33), 2007 | 50 | 2007 |
A virtual laboratory to support chemical reaction engineering courses using real-life problems and industrial software J Ramírez, D Soto, S López, J Akroyd, D Nurkowski, ML Botero, N Bianco, ... Education for Chemical Engineers 33, 36-44, 2020 | 43 | 2020 |
On the thermophoretic sampling and TEM-based characterisation of soot particles in flames ML Botero, J Akroyd, D Chen, M Kraft, JR Agudelo Carbon 171, 711-722, 2021 | 36 | 2021 |
Flexoelectricity and the formation of carbon nanoparticles in flames JW Martin, M Botero, RI Slavchov, K Bowal, J Akroyd, S Mosbach, M Kraft The Journal of Physical Chemistry C 122 (38), 22210-22215, 2018 | 29 | 2018 |
The impact of cyclic fuels on the formation and structure of soot M Salamanca, ML Botero, JW Martin, JAH Dreyer, J Akroyd, M Kraft Combustion and Flame 219, 1-12, 2020 | 28 | 2020 |
Detailed characterisation of TiO2 nano-aggregate morphology using TEM image analysis MY Manuputty, CS Lindberg, ML Botero, J Akroyd, M Kraft Journal of Aerosol Science 133, 96-112, 2019 | 28 | 2019 |
Co3O4 and FexCo3–xO4 Nanoparticles/Films Synthesized in a Vapor-Fed Flame Aerosol Reactor for Oxygen Evolution Y Sheng, ML Botero, MY Manuputty, M Kraft, R Xu ACS Applied Energy Materials 1 (2), 655-665, 2018 | 25 | 2018 |
Evolution of the soot particle size distribution along the centreline of an n-heptane/toluene co-flow diffusion flame JAH Dreyer, M Poli, NA Eaves, ML Botero, J Akroyd, S Mosbach, M Kraft Combustion and Flame 209, 256-266, 2019 | 23 | 2019 |
Cambridge weblabs: A process control system using industrial standard SIMATIC PCS 7 ML Botero, A Selmer, R Watson, M Bansal, M Kraft Education for Chemical Engineers 16, 1-8, 2016 | 21 | 2016 |