| Soot formation in laminar premixed ethylene/air flames at atmospheric pressure F Xu, PB Sunderland, GM Faeth Combustion and Flame 108 (4), 471-493, 1997 | 268 | 1997 |
| Dense, self‐formed char layer enables a fire‐retardant wood structural material W Gan, C Chen, Z Wang, J Song, Y Kuang, S He, R Mi, PB Sunderland, ... Advanced Functional Materials 29 (14), 1807444, 2019 | 182 | 2019 |
| Shapes of buoyant and nonbuoyant laminar jet diffusion flames PB Sunderland, BJ Mendelson, ZG Yuan, DL Urban Combustion and Flame 116 (3), 376-386, 1999 | 166 | 1999 |
| Soot formation in hydrocarbon/air laminar jet diffusion flames PB Sunderland, GM Faeth Combustion and flame 105 (1-2), 132-146, 1996 | 145 | 1996 |
| Fire‐resistant structural material enabled by an anisotropic thermally conductive hexagonal boron nitride coating W Gan, C Chen, Z Wang, Y Pei, W Ping, S Xiao, J Dai, Y Yao, S He, ... Advanced Functional Materials 30 (10), 1909196, 2020 | 141 | 2020 |
| Combustion inhibition and enhancement of premixed methane–air flames by halon replacements JL Pagliaro, GT Linteris, PB Sunderland, PT Baker Combustion and Flame 162 (1), 41-49, 2015 | 131 | 2015 |
| Shapes of nonbuoyant round luminous hydrocarbon/air laminar jet diffusion flames KC Lin, GM Faeth, PB Sunderland, DL Urban, ZG Yuan Combustion and Flame 116 (3), 415-431, 1999 | 102 | 1999 |
| Unwanted combustion enhancement by C6F12O fire suppressant GT Linteris, VI Babushok, PB Sunderland, F Takahashi, VR Katta, O Meier Proceedings of the Combustion Institute 34 (2), 2683-2690, 2013 | 101 | 2013 |
| Structure and soot properties of nonbuoyant ethylene/air laminar jet diffusion flames DL Urban, ZG Yuan, PB Sunderland, GT Linteris, JE Voss, KC Lin, Z Dai, ... AIAA journal 36 (8), 1346-1360, 1998 | 95 | 1998 |
| Soot formation in weakly buoyant acetylene-fueled laminar jet diffusion flames burning in air PB Sunderland, ÜÖ Köylü, GM Faeth Combustion and Flame 100 (1-2), 310-322, 1995 | 94 | 1995 |
| Laminar smoke points of nonbuoyant jet diffusion flames PB Sunderland, S Mortazavi, GM Faeth, DL Urban Elsevier, 1994 | 84 | 1994 |
| Thin-filament pyrometry with a digital still camera JD Maun, PB Sunderland, DL Urban Applied optics 46 (4), 483-488, 2007 | 82 | 2007 |
| Effects of structure and hydrodynamics on the sooting behavior of spherical microgravity diffusion flames PB Sunderland, RL Axelbaum, DL Urban, BH Chao, S Liu Combustion and Flame 132 (1-2), 25-33, 2003 | 82 | 2003 |
| An improved method of smoke point normalization L Li, PB Sunderland Combustion science and technology 184 (6), 829-841, 2012 | 79 | 2012 |
| The nondimensionalization of equations describing fluidization with application to the correlation of jet penetration height TR Blake, H Webb, PB Sunderland Chemical Engineering Science 45 (2), 365-371, 1990 | 79 | 1990 |
| Radiative emissions measurements from a buoyant, turbulent line flame under oxidizer-dilution quenching conditions JP White, ED Link, AC Trouvé, PB Sunderland, AW Marshall, JA Sheffel, ... Fire Safety Journal 76, 74-84, 2015 | 74 | 2015 |
| Optimized rate expressions for soot oxidation by OH and O2 H Guo, PM Anderson, PB Sunderland Fuel 172, 248-252, 2016 | 73 | 2016 |
| Digital camera measurements of soot temperature and soot volume fraction in axisymmetric flames H Guo, JA Castillo, PB Sunderland Applied optics 52 (33), 8040-8047, 2013 | 73 | 2013 |
| Radiative extinction of gaseous spherical diffusion flames in microgravity KJ Santa, BH Chao, PB Sunderland, DL Urban, DP Stocker, RL Axelbaum Combustion and Flame 151 (4), 665-675, 2007 | 63 | 2007 |
| Limits for hydrogen leaks that can support stable flames MS Butler, CW Moran, PB Sunderland, RL Axelbaum international journal of hydrogen energy 34 (12), 5174-5182, 2009 | 57 | 2009 |