ZnO |
C6H6O4Zn/ Metanol: Ácido Acético |
- |
1-4 |
Oxígeno |
Metano/ Oxígeno 1,58/1,52 |
TANI et al. [4242 TANI, T., MADLER, L., PRATSINIS, S.E. “Homogeneous ZnO nanoparticles by flame spray pyrolysis,” J. nan, pp. 337–343, 2002.] |
SiO2
|
Organometálicos |
- |
3; 5; 7 |
- |
|
LOVELL et al. [4141 LOVELL, E., SCOTT, J., AMAL, R. “Ni-SiO2 Catalysts for the Carbon Dioxide Reforming of Methane: Varying Support Properties by Flame Spray Pyrolysis,” Molecules, v. 20, n. 3, pp. 4594–4609, 2015.] |
SiO2
|
SiC8H20O4/ Etanol |
50 % 30 % |
18,3; 26,2; 35,8; 26,2 |
Aire 0,011; 0,006; 0,0083 |
Hidrogeno/ Oxígeno 0,38/3,66 |
OLIVAS-MARTINEZ et al. [3131 OLIVAS-MARTINEZ, M., SOHN, H.Y., JANG, H.D., et al., “Computational fluid dynamic modeling of the flame spray pyrolysis for silica nanopowder synthesis,” J. Nanopart Res, v. 17, n. 324, 2015.] |
ZrO2
|
C32H60O8Zr/Xilenos |
1 M |
16; 32; 64 |
Oxígeno 0,02; 0,04; 0,08 |
Metano/ Oxígeno 2/4,5 |
GRÖHN et al. [3939 GRÖHN, A.J., PRATSINIS, S.E., WEGNER, K. “Scale-up for Nanoparticle Synthesis by Flame Spray Pyrolysis : The High Temperature Particle Residence Time,” Ind. Eng. Chem. Res., v. 53, pp. 10734–10742, 2014.] |
ZrO2
|
C32H60O8Zr/Xilenos |
1 M |
4 |
Oxígeno |
Metano/ Oxígeno 1,25/2,5 |
GRÖHN et al. [4040 GRÖHN, A.J., EGGERSDORFER, M.L., PRATSINIS, S.E., et al., “On-line monitoring of primary and agglomerate particle dynamics,” J. Aerosol Sci., v. 73, pp. 1–13, 2014.] |
ZrO2
|
Zr(OCH2CH2CH3)4/Etanol-1-propanol |
0,5; 1 M |
4 |
Oxígeno 3 - 7 |
Metano/ Oxígeno 1,25/2,5 |
GRÖHN et al. [4545 GRÖHN, A.J., PRATSINIS, S.E., WEGNER, K. “Fluid-particle dynamics during combustion spray aerosol synthesis of ZrO2,” Chem. Eng. J., v. 191, pp. 491–502, 2012.] |
Al2O3
|
Al(NO3)3.9H2O/Isopropanol |
- |
6,2 |
Helio 20 - 50 |
Hidrogeno/Oxígeno 35/20 |
TIKKANEN et al. [4646 TIKKANEN, J. et al., “Characteristics of the liquid flame spray process,” Surf. Coat. Technol., v. 90, pp. 210–216, 1997.] |
SiO2
|
SiC8H20O4
|
- |
- |
Aire |
Hidrogeno/Oxígeno 6/15 |
BUDDHIRAJU et al. [3636 BUDDHIRAJU, V.S., RUNKANA, V. “Simulation of nanoparticle synthesis in an aerosol flame reactor using a coupled flame dynamics–monodisperse population balance model,” J. Aerosol Sci., vol. 43, no. 1, pp. 1–13, Jan. 2012.] |
LaCoO3
|
La(CH3COO)3 Co(CH3COO)2/Ácido propiónico |
0,025 - 0,2 M |
1 |
Oxígeno 5 |
Metano/ Oxígeno 0,5/1 |
CHIARELLO et al. [4444 CHIARELLO, G., ROSSETTI, I., FORNI, L. “Flame-spray pyrolysis preparation of perovskites for methane catalytic combustion,” J. Catal., v. 236, n. 2, pp. 251–261, Dec. 2005.] |
Ta2O5/SiO2
|
Ta(OC4H9)5 - SiC8H20O4/Hexano |
0,5 – 4,5 M |
5 |
Oxígeno /Aire 5 |
Metano/ Oxígeno 1,1/2,5 |
SCHULZ et al. [4747 SCHULZ, H., MÄDLER, L., PRATSINIS, S.E., et al., “Transparent nanocomposites of radiopaque, flame-made Ta2O 5/SiO2 particles in an acrylic matrix,” Adv. Funct. Mater., v. 15, n. 5, pp. 830–837, 2005.] |
ZrO2
|
Zr(NO3) 4/H2O: etanol |
0,25 - 1M |
- |
Gases de combustión |
Acetileno/Oxígeno 65/70 psi |
TOK et al. [4343 TOK, A.I., BOEY, F.Y., DU, S., et al., “Flame spray synthesis of ZrO2 nano-particles using liquid precursors,” Mater. Sci. Eng. B, v. 130, n. 1–3, pp. 114–119, Jun. 2006.] |