Soot inception in a methane/air diffusion flame as characterized by detailed species profiles KC Smyth, JH Miller, RC Dorfman, WG Mallard, RJ Santoro Combustion and flame 62 (2), 157-181, 1985 | 357 | 1985 |
Networks of gold nanoparticles and bacteriophage as biological sensors and cell-targeting agents GR Souza, DR Christianson, FI Staquicini, MG Ozawa, EY Snyder, ... Proceedings of the National Academy of Sciences 103 (5), 1215-1220, 2006 | 313 | 2006 |
Review of Terminology Used to Describe Soot Formation and Evolution under Combustion and Pyrolytic Conditions HW Hope A. Michelsen*, Meredith B. Colket, Per-Erik Bengtsson, Andrea D’Anna ... ACS Nano 14 (10), 12470–12490, 2020 | 181 | 2020 |
Intermolecular potential calculations for polynuclear aromatic hydrocarbon clusters JD Herdman, JH Miller The Journal of Physical Chemistry A 112 (28), 6249-6256, 2008 | 162 | 2008 |
Resonantly enhanced two‐photon photoionization of NO in an atmospheric flame WG Mallard, JH Miller, KC Smyth The Journal of Chemical Physics 76 (7), 3483-3492, 1982 | 135 | 1982 |
A comparison of Raman signatures and laser-induced incandescence with direct numerical simulation of soot growth in non-premixed ethylene/air flames JD Herdman, BC Connelly, MD Smooke, MB Long, JH Miller Carbon 49 (15), 5298-5311, 2011 | 125 | 2011 |
Comparison of experimental and computed species concentration and temperature profiles in laminar, two-dimensional methane/air diffusion flames TS NORTON, KC SMYTH, JH MILLER, MD SMOOKE Combustion Science and Technology 90 (1-4), 1-34, 1993 | 122 | 1993 |
The kinetics of polynuclear aromatic hydrocarbon agglomeration in flames JH Miller Symposium (International) on Combustion 23 (1), 91-98, 1991 | 111 | 1991 |
Concentration measurements of OH· and equilibrium analysis in a laminar methane-air diffusion flame KC Smyth, PJH Tjossem, A Hamins, JH Miller Combustion and flame 79 (3-4), 366-380, 1990 | 106 | 1990 |
The observation of laser-induced visible fluorescence in sooting diffusion flames JH Miller, WG Mallard, KC Smyth Combustion and Flame 47, 205-214, 1982 | 93 | 1982 |
Tunable diode-laser measurement of carbon monoxide concentration and temperature in a laminar methane–air diffusion flame JH Miller, S Elreedy, B Ahvazi, F Woldu, P Hassanzadeh Applied optics 32 (30), 6082-6089, 1993 | 91 | 1993 |
In Vivo Detection of Gold− Imidazole Self-Assembly Complexes: NIR-SERS Signal Reporters GR Souza, CS Levin, A Hajitou, R Pasqualini, W Arap, JH Miller Analytical Chemistry 78 (17), 6232-6237, 2006 | 90 | 2006 |
Aromatic excimers: evidence for polynuclear aromatic hydrocarbon condensation in flames JH Miller Proceedings of the Combustion Institute 30 (1), 1381-1388, 2005 | 86 | 2005 |
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 | 85 | 2016 |
Extinction measurements for optical band gap determination of soot in a series of nitrogen-diluted ethylene/air non-premixed flames EM Adkins, JH Miller Physical Chemistry Chemical Physics 17 (4), 2686-2695, 2015 | 83 | 2015 |
Argon matrix photolysis and photoionization studies of benzene. Absorption spectrum of benzene cation and benzene dimer cation JH Miller, L Andrews, PA Lund, PN Schatz The Journal of Chemical Physics 73 (10), 4932-4939, 1980 | 81 | 1980 |
Chemistry of molecular growth processes in flames KC Smyth, JH Miller Science 236 (4808), 1540-1546, 1987 | 73 | 1987 |
The molecular composition of soot RS Jacobson, AR Korte, A Vertes, JH Miller Angewandte Chemie 132 (11), 4514-4520, 2020 | 70 | 2020 |
Computational and experimental study of a forced, time-dependent, methane–air coflow diffusion flame SB Dworkin, BC Connelly, AM Schaffer, BAV Bennett, MB Long, ... Proceedings of the Combustion Institute 31 (1), 971-978, 2007 | 70 | 2007 |
Soot particle formation in laminar diffusion flames RJ Santoro, JH Miller Langmuir 3 (2), 244-254, 1987 | 70 | 1987 |