We have studied the gas phase H 2 production by methanol thermo-photoreforming using Cu-modified TiO 2 . Metal cocatalyst has been deposited by means of photodeposition method. The concentration of methanol in the steam was also considered. It appears that H 2 production is notably higher as temperature increases. Moreover, the optimum H 2 yield is achieved using methanol concentration of 10 % v/v. CO and CO 2 were monitored as side products of the overall reaction. It has been stated that CO evolution is significant at lower temperatures. As temperature increases, CO evolution is hindered and H 2 appeared boosted. We have demonstrated that other reactions such water-gas-shift or formate dehydration would participate in the overall process. On this basis, optimal operational condition for H 2 production is attained for thermo-photocatalytic reforming of methanol solution 10 % v/v at 200°C.
A bimetallic CuPd/TiO2 system has been prepared by a two‐step synthesis and was used for a methanol steam photoreforming reaction. By sequential deposition, palladium is deposited over copper nanoclusters through a galvanic replacement process. Hydrogen production by steam reforming from methanol was achieved by both thermo‐photocatalytic and photocatalytic processes. It appears that H2 production on the bimetallic system is notably higher than the Pd monometallic reference. Moreover this difference in the catalytic performance could be related to the higher CO evolution observed for the monometallic Pd1.0 TiO2 system which is partially inhibited in the bimetallic catalyst. In addition, an important thermal effect can be envisaged in all cases. Nevertheless, this improved effect in the thermo‐photocatalytic process is accompanied by a remarkable CO evolution and SMSI effect (important strong metal‐support interactions) that hindered the efficiency as temperature increases. On this basis, optimal operational conditions for H2 production are obtained for thermo‐photocatalytic reforming at 100 °C, for which the synergetic effect is higher with lower CO production (H2/CO=4).
Different
Cu@Pd–TiO2 systems have been prepared
by a two-step synthesis to obtain a bimetallic co-catalyst for the
H2 photoreforming reaction. We find that the tailored deposition
of Pd covering the Cu nanoclusters by a galvanic replacement process
results in the formation of a core@shell structure. The photocatalytic
H2 production after 18 h is 350 mmol/g on the Cu@Pd1.0–TiO2 bimetallic system, which is higher
than that on the monometallic ones with a H2 production
of 250 mmol/g on Pd-supported TiO2. Surface characterization
by high-angle annular dark-field scanning transmission electron microscopy,
H2-temperature-programed reduction, CO-FTIR spectroscopy,
and XPS gives clear evidence of the formation of a core@shell structure.
With a Pd loading of 0.2–0.3 at. %, we propose a full coverage
of the Cu nanoparticles with Pd. Long-time photoreforming runs show
the enhanced performance of supported Cu@Pd with respect to bare palladium
leading to a more stable catalyst and ultimately higher H2 production.
Corcuera Flores JR, Manso Platero FJ, Martínez Maestre MA, Machuca Portillo G.Actualizaciones en la detección precoz de la osteoporosis
RESUMENLa osteoporosis es una enfermedad sistémica del esqueleto, con amplia prevalencia sobre todo en mujeres postmenopáusicas. La ortopantomografía (OPMG) es una técnica radiológica de uso generalizado en las consultas de los odontólogos. En el presente estudio se hace una revisión de trabajos en los que, utilizando una serie de índices como: Mandibular Cortical Index (MCI), Mental Index (MI), Panoramic Mandibular Index (PMI), Antegonial Index (AI), Gonial Index (GI), medidos sobre OMPG se plantea la hipótesis de poder detectar precozmente la osteoporosis por este medio. Los resultados expuestos en los diferentes estudios avalan esta hipótesis y así se podrá remitir a los pacientes al especialista para que se les haga un estudio más exhaustivo sobre dicha patología.
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