Catalytic oxidation of NO over TiO2 supported platinum clusters I. Preparation, characterization and catalytic properties

“…The conversion decreased slowly as the result of the decomposition of NO 2 at 350-400 • C. In some previous study, NO conversion reached only about 30% at 450 • C in the condition of GHSV = 30,000 h −1 over Ce x Zr 1−x O 2 [51]. In other studies, NO conversion reached about 60% at 150 • C over Mn-Ce-O x catalysts [52], and reached about 90% at 300 • C over Pt/TiO 2 [53]. Due to the low SO 2 resistance over Mn-based catalysts and the high cost for preparation over Pt-based catalysts, these catalysts could not be applied for the NO x removal in the coal power plant, but they could be applied for other NO x removal, such as automobile exhaust treatment and diesel oxidation.…”

Focus on the modified CexZr1−xO2 with the rigid benzene-muti-carboxylate ligands and its catalysis in oxidation of NO

“…The conversion decreased slowly as the result of the decomposition of NO 2 at 350-400 • C. In some previous study, NO conversion reached only about 30% at 450 • C in the condition of GHSV = 30,000 h −1 over Ce x Zr 1−x O 2 [51]. In other studies, NO conversion reached about 60% at 150 • C over Mn-Ce-O x catalysts [52], and reached about 90% at 300 • C over Pt/TiO 2 [53]. Due to the low SO 2 resistance over Mn-based catalysts and the high cost for preparation over Pt-based catalysts, these catalysts could not be applied for the NO x removal in the coal power plant, but they could be applied for other NO x removal, such as automobile exhaust treatment and diesel oxidation.…”

Focus on the modified CexZr1−xO2 with the rigid benzene-muti-carboxylate ligands and its catalysis in oxidation of NO

“…Various techniques have been developed for the elimination of NO x from stationary sources, such as selective catalytic reduction (SCR) [3], selective non-catalytic reduction (SNCR) [4], direct decomposition [5], and non-thermal plasma (NTP) [6]. The catalytic oxidation of NO to NO 2 has been focused on due to its key step for many De-NO techniques [7][8][9]. With the appropriate ratio of NO/NO x = 50%-60% by using efficient catalysts, the great NO x removal efficiency could be achieved by the further absorption with the adsorbent or the absorption liquid [10].…”

Low temperature catalytic oxidation of nitric oxide over the Mn–CoOx catalyst modified by nonthermal plasma

“…The detailed preparation process of Pt/TiO 2 by photo-deposition can be found in our previous work [8]. Briefly, 2 mM H 2 PtCl 6 solution containing ca.…”

“…In our previous work [8], we reported that Pt/TiO 2 catalyst prepared by photo-deposition exhibited remarkable activity for NO oxidation even in the presence of SO 2 . In the present work, the surface species formed during the NO oxidation under different conditions (in the absence/presence of SO 2 ) over Pt/TiO 2 prepared by photo-deposition are investigated by in situ FTIR spectroscopy.…”

Catalytic oxidation of NO over TiO2 supported platinum clusters. II: Mechanism study by in situ FTIR spectra