| 1 |
Selective catalytic reduction of NOx by NH3 over V2O5-WO3 supported by titanium isopropoxide (TTIP)-treated TiO2
Lee GY, Ye BR, Lee MJ, Chun SY, Jeong BR, Kim HD, Jae JH, Kim TW
Journal of Industrial and Engineering Chemistry, 109, 422, 2022 |
| 2 |
A two-step simulation methodology for modelling stagnation flame synthesised aggregate nanoparticles
Lindberg CS, Manuputty MY, Akroyd J, Kraft M
Combustion and Flame, 202, 143, 2019 |
| 3 |
Photocatalytic activity based-optimization of TTIP thin films for E-coli inactivation: Effect of Mn and Cu dopants
Ozkal CB, Mantzavinos D, Meric S
Catalysis Today, 280, 86, 2017 |
| 4 |
Modelling TiO2 formation in a stagnation flame using method of moments with interpolative closure
Manuputty MY, Akroyd J, Mosbach S, Kraft M
Combustion and Flame, 178, 135, 2017 |
| 5 |
Self-cleaning and superhydrophilic wool by TiO2/SiO2 nanocomposite
Pakdel E, Daoud WA, Wang XG
Applied Surface Science, 275, 397, 2013 |
| 6 |
Effects of electrospinning parameters on titanium dioxide nanofibers diameter and morphology: An investigation by Box-Wilson central composite design (CCD)
Sarlak N, Nejad MAF, Shakhesi S, Shabani K
Chemical Engineering Journal, 210, 410, 2012 |
| 7 |
TiOx Films Deposited by Plasma Enhanced Chemical Vapour Deposition Method in Atmospheric Dielectric Barrier Discharge Plasma
Klenko Y, Pichal J
Plasma Chemistry and Plasma Processing, 32(6), 1215, 2012 |
| 8 |
Surface reaction characteristics at low temperature synthesis BaTiO3 particles by barium hydroxide aqueous solution and titanium tetraisopropoxide
Zeng M
Applied Surface Science, 257(15), 6636, 2011 |
| 9 |
EIS analysis on low temperature fabrication of TiO2 porous films for dye-sensitized solar cells
Hsu CP, Lee KM, Huang JTW, Lin CY, Lee CH, Wang LP, Tsai SY, Ho KC
Electrochimica Acta, 53(25), 7514, 2008 |
| 10 |
Flame synthesis of titania particles from titanium tetraisopropoxide in premixed flames
Yeh CL, Yeh SH, Ma HK
Powder Technology, 145(1), 1, 2004 |
