| Carbon materials for advanced technologies TD Burchell Elsevier, 1999 | 747 | 1999 |
| High-thermal-conductivity, mesophase-pitch-derived carbon foams: effect of precursor on structure and properties J Klett, R Hardy, E Romine, C Walls, T Burchell Carbon 38 (7), 953-973, 2000 | 703 | 2000 |
| A novel process and material for the separation of carbon dioxide and hydrogen sulfide gas mixtures TD Burchell, RR Judkins, MR Rogers, AM Williams Carbon 35 (9), 1279-1294, 1997 | 208 | 1997 |
| A microstructurally based fracture model for polygranular graphites TD Burchell Carbon 34 (3), 297-316, 1996 | 154 | 1996 |
| Pitch-based carbon foam heat sink with phase change material JW Klett, TD Burchell US Patent 6,037,032, 2000 | 143 | 2000 |
| Practical aspects for characterizing air oxidation of graphite CI Contescu, S Azad, D Miller, MJ Lance, FS Baker, TD Burchell Journal of nuclear materials 381 (1-2), 15-24, 2008 | 132 | 2008 |
| The effect of high fluence neutron irradiation on the properties of a fine-grained isotropic nuclear graphite S Ishiyama, TD Burchell, JP Strizak, M Eto Journal of Nuclear Materials 230 (1), 1-7, 1996 | 130 | 1996 |
| Swelling of nuclear graphite and high quality carbon fiber composite under very high irradiation temperature LL Snead, TD Burchell, Y Katoh Journal of Nuclear Materials 381 (1-2), 55-61, 2008 | 117 | 2008 |
| The effect of microstructure on air oxidation resistance of nuclear graphite CI Contescu, T Guldan, P Wang, TD Burchell Carbon 50 (9), 3354-3366, 2012 | 113 | 2012 |
| The effect of neutron irradiation damage on the properties of grade NBG-10 graphite TD Burchell, LL Snead Journal of Nuclear Materials 371 (1-3), 18-27, 2007 | 112 | 2007 |
| Low pressure storage of natural gas for vehicular applications T Burchell, M Rogers SAE transactions, 2242-2246, 2000 | 112 | 2000 |
| Radiation effects in graphite and carbon-based materials TD Burchell MRS bulletin 22 (4), 29-35, 1997 | 110 | 1997 |
| Effects of heat treatment conditions on the thermal properties of mesophase pitch-derived graphitic foams JW Klett, AD McMillan, NC Gallego, TD Burchell, CA Walls Carbon 42 (8-9), 1849-1852, 2004 | 108 | 2004 |
| Effect of temperature on the adsorption of water in porous carbons A Striolo, KE Gubbins, MS Gruszkiewicz, DR Cole, JM Simonson, ... Langmuir 21 (21), 9457-9467, 2005 | 100 | 2005 |
| Activated carbon fiber composite material and method of making TD Burchell, CE Weaver, BR Chilcoat, F Derbyshire, M Jagtoyen US Patent 6,030,698, 2000 | 97 | 2000 |
| Pitch-based carbon foam heat sink with phase change material JW Klett, TD Burchell US Patent 6,399,149, 2002 | 91 | 2002 |
| Carbon fiber Composite molecular sieve electrically regenerable air filter media KA Wilson, TD Burchell, RR Judkins US Patent 5,827,355, 1998 | 89 | 1998 |
| The effects of radiation damage on the properties of GraphNOL N3M TD Burchell, WP Eatherly Journal of Nuclear Materials 179, 205-208, 1991 | 83 | 1991 |
| Thermal conductivity degradation of graphites due to nuetron irradiation at low temperature LL Snead, TD Burchell Journal of nuclear materials 224 (3), 222-229, 1995 | 82 | 1995 |
| High thermal conductivity, mesophase pitch-derived carbon foam J Klett International SAMPE symposium and exhibition (proceedings) 43 (1), 745-755, 1998 | 80 | 1998 |
