| 1 |
Depression of melting point for protective aluminum oxide films
Dreizin EL, Allen DJ, Glumac NG
Chemical Physics Letters, 618, 63, 2015 |
| 2 |
Using magnesium to maximize heat generated by reactive Al/Zr nanolaminates
Overdeep KR, Livi KJT, Allen DJ, Glumac NG, Weihs TP
Combustion and Flame, 162(7), 2855, 2015 |
| 3 |
OH concentration profiles over alumina, quartz, and platinum surfaces using laser-induced fluorescence spectroscopy in low-pressure hydrogen/oxygen flames
Prakash S, Glumac NG, Shankar N, Shannon MA
Combustion Science and Technology, 177(4), 793, 2005 |
| 4 |
Hydroxyl radical concentration measurements near the deposition substrate in low-pressure diamond-forming flames
Roy S, DuBois J, Lucht RP, Glumac NG
Combustion and Flame, 138(3), 285, 2004 |
| 5 |
Parametric effects on thin film growth and uniformity in an atmospheric pressure impinging jet CVD reactor
Vanka SP, Luo G, Glumac NG
Journal of Crystal Growth, 267(1-2), 22, 2004 |
| 6 |
The effects of temperature jump on CVD modeling
Hu T, Glumac NG
Advanced Materials, 14(17), A205, 2002 |
| 7 |
Temperature profile measurements in the near-substrate region of low-pressure diamond-forming flames
Roy S, Kulatilaka WD, Lucht RP, Glumac NG, Hu TL
Combustion and Flame, 130(3), 261, 2002 |
| 8 |
Formation and consumption of SiO in powder synthesis flames
Glumac NG
Combustion and Flame, 124(4), 702, 2001 |
| 9 |
Catalytic removal of NO from post-flame gases in low pressure stagnation-point flames over platinum
Khadiya N, Glumac NG
Combustion and Flame, 125(1-2), 931, 2001 |
| 10 |
Destruction of NO during catalytic combustion on platinum and palladium
Khadiya N, Glumac NG
Combustion Science and Technology, 165, 249, 2001 |
