24 research outputs found
Impact of silica structure of copper and iron-containing SBA-15 and SBA-16 materials on toluene oxidation
Copper and iron modified SBA-15 and SBA-16 materials were prepared by incipient wetness impregnation technique and characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), N2 physisorption, temperature-programmed reduction (TPR-TGA), UV-Vis diffuse reflectance and Mössbauer spectroscopy. Formation of finely dispersed copper and iron-oxide species was observed on both supports, whereas copper ferrite could be evidenced only on SBA-15. It was found that the structural and surface properties of the mesoporous supports determine the type of formed metal oxides, their dispersion, reducibility and the catalytic activity in total oxidation of toluene. On SBA-16 support penetration of metal salt into the bimodal channel system is hindered therefore separate copper- and iron-oxide phases are formed on the outer surface of catalysts. The catalytic activity and stability are lower due to the easier agglomeration of particles. On SBA-15 support finely dispersed metal-oxides can be found in the mesoporous channels. Their interaction is favored to form bimetallic phases enhancing the catalytic activity and stability in total oxidation of toluene
Optical emission spectra analysis of thermal plasma treatment of poly(vinyl chloride)
Abstract
Decomposition of poly(vinyl chloride) (PVC) was investigated in radiofrequency thermal plasma in neutral, oxidative and reductive conditions. Optical emission spectroscopy (OES) was applied for the characterization of the plasma column. OES was used to identify active plasma components such as excited atoms, ions, radicals and molecules. The spectra were dominated by molecular C2, CN, OH, and CH bands, and atomic H, Ar, C, Cl and O lines. Emission intensities of main species were monitored versus various experimental parameters. The rotational-vibrational temperatures determined from different bimolecular species were considered in the range of 2000–6400 K. Solid soot samples were collected and purified to investigate the possibility of graphene formation as a by-product of the decomposition process.</jats:p
Acetic acid hydroconversion over mono-and bimetallic indium doped catalysts supported on alumina and silicas of various textures
Abstract
Consecutive hydroconversion of acetic acid (AA) to ethanol was compared over monometallic and novel bimetallic (containing In as guest metal) catalysts on alumina and silica supports (inter alia highly ordered SBA-15) of different porosity and pore structure.
The transformation was studied in a fixed bed, flow-through reactor in the temperature range of 220–380°C using hydrogen flow at 21 bar total pressure. AA hydroconversion activity of Cu and Pt catalysts and the yield of selectively produced alcohol were increased drastically by applying SBA-15 as highly ordered, mesoporous silica support instead of alumina. The most active nickel catalysts do not allow the selective addition of hydrogen to carbon-oxygen bonds independently of supports producing mainly CH4; however, indium doping can completely eliminate the hydrodecarbonylation activity as found in earlier studies. The textural properties of studied silica supports of various textures such as SBA-15, CAB-O-SIL, and Grace Sylobead have a profound impact on the catalytic performance of Ni and Ni2In particles.</jats:p
Effect of the solid precursors on the formation of nanosized TiBx powders in RF thermal plasma
Continuous synthesis of TiBx (x≈0.5-2) nanoparticles from various low cost solid precursors
such as titanium and titanium dioxide admixed with boron and/or carbon in radiofrequency
thermal plasma was studied. Feasibility of TiB2 formation was predicted by thermodynamic
equilibrium calculations in the 500 - 7500 K temperature range. In all the investigated
system high temperature reactions yielded nanometer-sized TiBx powders with a
mean size varying between 13 and 83 nm. Among the synthesized products in addition to
TiBx, oxidized precursor residues were also found in smaller quantities. Although addition
of carbon to the precursors could not completely prevent surface oxidation of boride particles,
it contributed to the reduction of the mean particle size of the formed TiB2
Influence of the support crystal structure of Au/WO3 catalysts in CO oxidation
2
G
old nanoparticles
(
partially below
5 nm
in
diameter)
were successfully deposited
on
hexagonal and monoclinic WO
3
supports by
d
eposition
–
precipitation, which had been
considered
previously
not feasible
owing to
the low isoelectronic point of WO
3
.
The catalysts
were
characterized by
TEM
,
SEM,
N
2
-
adsorption
,
XRD
,
and XPS
.
In CO oxidation
m
-
WO
3
/Au showed
better
catalytic activity over 1
0
0 °C
than
h
-
WO
3
/Au.
This was explained by
that
m
-
WO
3
had
higher surface OH coverage
, resulting in larger Au nanoparticle loading and
thus better catalytic activity