15 research outputs found
Bimetallic Pt-Pd co-catalyst Nb-doped TiO2 materials for H2 photo-production under UV and Visible light illumination
In this work we synthesized a series of binary PtPd co-catalysts supported on a Nb-doped TiO2 support. The catalytic solids and corresponding monometallic reference systems are characterized using X-ray diffraction, X-ray photoelectron, and UV–vis spectroscopies, together with microscopy and porosimetry tools. Such characterization was able to show the formation of PtPd alloy particles in the bimetallic catalysts. The mono and bimetallic TiO2-based powders were tested in the photo-production of hydrogen from methanol:water mixtures under UV and visible illumination conditions. Analysis of catalytic properties was carried out through the measurement of the optical properties of the materials and the calculation of the true quantum efficiency parameter. Results indicate that the PtPd co-catalysts have superior performance that the Pt and Pd monometallic counterparts both under UV and visible illumination conditions. Optimum performance was achieved with a material having a Pt:Pd 1:1 atomic ratio. A remarkable increase in the use of the visible range and thus in sunlight utilization is achieved with the 1:1 Pt:Pd bimetallic system with respect to the monometallic counterparts. The evolution of the bimetallic co-catalysts under reaction conditions as well as their key properties to interpret photo-activity were analyzed with the help of the above mentioned techniques as well as photoluminescence spectroscopy and an in-situ infrared analysis of the materials under reaction conditions. Results point out the critical role that both PtPd alloying and the metal-support interface play in the reaction
Recent progress in the quantitative assessment and interpretation of photoactivity
The development of the photo-catalysis field is limited by a
deficient quantitative assessment of photo-activity. The interplay
between mass and momentum transport together with radiative
transfer phenomena taking place at any photo-catalytic reaction
or process makes complex such quantitative assessment. To
reach this goal, the review studies the measurement, meaning,
and analysis of three types of observables. The first family of
observables has the reaction rate and closely connected
observables as the turnover frequency as central pieces.
The second family owns the so-called efficiency observables,
starting from the photonic yield and quantum efficiency of the
reaction and ending in the global efficiency of the process. Finally,
the review studies kinetic constant observables. The contribution
focusses on most rencet contribution analyzing these
observables in terms of their (adequate) measurement conditions
and physico-chemical interpretation, in order to unveil their full
potential in the context of the photo-catalysis field.MCIN/AEI PID2019-105490RB-C31ERDF A way of making EuropeEuropean CommissionConsejo Nacional de Ciencia y Tecnologia (CONACyT) SENER-CONACyT 117373UGR PPJIA2019-0
Role of alkali-cyano group interaction in g-C3N4 based catalysts for hydrogen photo-production
Carbon nitride based materials incorporating K and Na alkali ions were used as support(s) to deposit platinum. The systems were tested in the photo-production of hydrogen using methanol as a sacrificial molecule. Tests under UV and sunlight-type illumination conditions showed an important promoting effect of the alkali ions irrespective of the illumination source characteristics. The measurement of the quantum efficiency was used to quantitatively assess the performance of the catalysts. Outstanding results were obtained, particularly under sunlight illumination. A complete characterization study of the materials was carried out to establish a structure-activity link. This link correlates catalytic activity with the capture of charge carrier species by surface cyano groups directly associated with the presence of alkali ions at the carbon nitride componen
Facile synthesis of B/g-C3N4 composite materials for the continuous-flow selective photo-production of acetone
In this work versatile boron–carbon nitride composite materials were synthesized and utilized in a sustainable process using sunlight as the energy source for the continuous-flow selective photocatalytic production of acetone from 2-propanol. It is worth highlighting that the sample preparation was carried out
by an environmentally friendly strategy, without a solvent or additional reagents. Samples containing
boron in 1–10 wt% were subjected to physico-chemical characterization using XRD, porosimetry, UVvisible spectroscopy, TEM, energy-dispersive X-ray spectroscopy and XPS. The reaction output was analyzed on the basis of the reaction rate, selectivity and quantum efficiency of the process. A correlation
analysis between catalytic properties with two observables, the boron phase distribution in the materials
and charge handling efficiency (measured using photoluminescence), rationalizes photoactivity. Such an
analysis indicates that the presence of an amorphous boron metallic phase and its contact with the
carbon nitride component are key to setting up a renewable and easily scalable chemical process to
obtain acetone.MINECO (Spain)
ENE2016-77798-C4-1-RConsejo Superior de Investigaciones Cientificas (CSIC)Secretaria de Ciencia Tecnologia e Innovacion of CDMX (SECTEI, Mexico)MINECO
CTQ2016-78289-PEuropean Union (EU)RUDN University Program 5-10
Efecto de nanovarillas de CeO2 en el desempeño de fotocatalítico del Pd TiO 2 para producción de hidrógeno
Trabajo presentado en el XVIII Congreso Mexicano de Catálisis: IX Congreso Internacional, celebrado en Morelia, Michoacán (México) del 8 al 13 de octubre de 2023.[ES] En este trabajo se evaluó la actividad fotocatalítica, en términos de producción de hidrógeno y eficiencia cuántica (QE), de una serie de materiales a base de dióxido de titanio nanocompuesto con distintas cantidades de nanovarillas de dioxido de cerio y co-catalizado con Pd. Los experimentos de fotoactividad se realizaron bajo condiciones de irradiación ultravioleta y visible demostrando que la incorporación de las nanovarillas de CeO2 (nVCe) promueven de manera importante la producción de H2, independiente del tipo de fuente de iluminación utilizada. Asimismo, y con la finalidad de evaluar cuantitativamente el comportamiento de los catalizadores, se determinó la eficiencia cuántica de los materiales. Como resultado principal se demostró la excelente eficiencia cuántica de los materiales bajo iluminación tipo solar. Además, los resultados de las diferentes técnicas de caracterización permitieron establecer una correlación estructura- actividad, que demuestra la captura de los portadores de carga por efecto de la Ceria.[EN] In this research study, the impact of adding cerium oxide nanorods to titanium oxide-supported palladium systems on photocatalytic hydrogen production was analyzed. Tests under UV and sunlight-type illumination conditions showed an important promoting effect of Ceria nanorods irrespective of the illumination source nature. The measurement of the quantum efficiency was used to quantitatively assess the performance of the catalysts. Outstanding results were obtained, particularly under sunlight illumination. A complete characterization study of the materials was carried out allowing to establishing a structure-activity link correlating the capture of charge after light excitation with CeO2 nanorods incorporationthe formation of surface groups directly associated with the presence of alkali ions at the carbon nitride component
Boosting Pt/TiO2 hydrogen photoproduction through Zr doping of the anatase structure: A spectroscopic and mechanistic study
The production of hydrogen from the photoreforming of methanol was essayed using an anatase-based system, having Pt nanoparticles and a Zr-doped anatase high surface area support. The production of hydrogen was quantitatively analyzed using the quantum efficiency parameter under UV and visible illumination conditions. The study showed that a 2.5 mol. % of Zr renders an outstanding material (4.6% quantum efficiency) for the fruitful use of sunlight as a green source of energy of the process. The outstanding promotion of activity orginated by Zr doping of the anatase structure was studied using in-situ infrared, photoluminescence and electron paramagnetic resonance spectroscopies. The multitechnique spectroscopic investigation of the reaction mechanism demonstrates that this occurs through a complex reforming plus water gas shift path. The study also unveils that optoelectronic properties of the solids derived from Zr incorporation drive activity of the system by controlling light absorption and, mainly, charge carrier recombination and interaction with the reactant molecules.Ministerio de Economía, Comercio y Empresa (España)Secretaria de Ciencia Tecnología e Innovación de Ciudad de MéxicoDepto. de Química en Ciencias FarmacéuticasFac. de FarmaciaTRUEpu
Boosting Pt/TiO2 hydrogen photoproduction through Zr doping of the anatase structure: a spectroscopic and mechanistic study
The production of hydrogen from the photoreforming of methanol was essayed using an anatase-based system, having Pt nanoparticles and a Zr-doped anatase high surface area support. The production of hydrogen was quantitatively analyzed using the quantum efficiency parameter under UV and visible illumination conditions. The study showed that a 2.5 mol. % of Zr renders an outstanding material (4.6% quantum efficiency) for the fruitful use of sunlight as a green source of energy of the process. The outstanding promotion of activity orginated by Zr doping of the anatase structure was studied using in-situ infrared, photoluminescence and electron paramagnetic resonance spectroscopies. The multitechnique spectroscopic investigation of the reaction mechanism demonstrates that this occurs through a complex reforming plus water gas shift path. The study also unveils that optoelectronic properties of the solids derived from Zr incorporation drive activity of the system by controlling light absorption and, mainly, charge carrier recombination and interaction with the reactant molecules
Foto-termo catalizador para reformado de metanol
Foto termo catalizadores para reformado de metanol. La presente invención se refiere a un foto-termo catalizador para la reacción de reformado de metanol para la obtención de H2, con fórmula general Yy/Ti{sub.1-x}CexO2 donde y tiene un valor de entre un 0,1% y un 2% en peso respecto de la cantidad final de Ti1-xCexO2. La presente invención se enmarca entonces en el campo de las operaciones industriales del reformado de metanol y en el campo de la química catalítica y de la obtención del H2 y su separación y en la reducción de gases de efecto invernadero.Peer reviewedConsejo Superior de Investigaciones Científicas (CSIC)A1 Solicitud de patente con informe sobre el estado de la técnic
Toward the green production of H2: binary Pt-Ru promoted Nb-TiO2 based photocatalysts
Hydrogen photoproduction using methanol:water mixtures was essayed with PtRu titania-based materials. All materials contain a high-surface-area Nb-doped anatase support. Six bimetallic formulations with Pt:Ru ratios from 4:1 to 1:4 and two (Pt and Ru) monometallic reference samples were utilized. The catalytic response of the materials to three main experimental variables (methanol:water molar ratio, catalyst concentration, and light intensity) was studied through a Box-Benhken factorial design and the calculation of the true quantum efficiency. The optimum activity is achieved using a bimetallic PtRu (2:1) composition, which provides outstanding efficiency under ultraviolet (UV), visible, and sunlight illumination, as well as long-term stability. The interpretation of the activity was performed using characterization results, the outcome of an analysis of charge recombination with photoluminescence spectroscopy and of an in situ infrared study under reaction conditions. This proves that the photophysical and chemical properties of metallic Pt particles in contact with Ru oxidized particles are key to render highly active systems