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Applied Catalysis
Elsevier Science Publishers
Applied Catalysis

Elsevier Science Publishers

0926-3373

Applied Catalysis/Journal Applied Catalysis
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    Operando mechanistic studies of selective oxidation of glycerol to dihydroxyacetone over amorphous cobalt oxide

    Truong-Giang VoHo, Po-YunChiang, Chia-Ying
    9页
    查看更多>>摘要:In this work, cobalt oxide (CoOx) has been demonstrated as an efficient and selective electrocatalyst for producing value-added dihydroxyacetone (DHA) from industrial by-product glycerol. Under optimized conditions, DHA with high selectivity up to 45% and a high production rate of 9.6 mu mol h-1 cm-2 is obtained at high current density over 3 mA cm-2 without the occurrence of the oxygen evolution reaction. Operando Raman spectroscopy features the potential-induced structural transformation between CoOx and oxyhydroxides from which a correlation among applied potential, surface chemistry of electrocatalyst, and product distribution are built. These results point toward the viability of using inexpensive materials for electrochemical biomass upgrading as well as providing opportunities for studying structural evolution and activity origin of catalysts under realistic working conditions that can be widely extended to most electrocatalytic biomass valorization processes.
      原文链接:
    • NSTL
    • Elsevier

    Lorentz force promoted charge separation in a hierarchical, bandgap tuned, and charge reversible NixMn(0.5-x)O photocatalyst for sulfamethoxazole degradation

    Anwer, HassanPark, Jae-Woo
    11页
    查看更多>>摘要:Here, a hierarchical NixMn(0.5-x)O catalyst that propels charge carriers to opposite interfaces of core@shell nanoparticle is reported. The opposite drift of charge carriers was achieved by tuning band edges in a multilevel catalyst by varying the molar concentration (x, 0 -> 0.5) of precursors in a series of input injections. Preferential oxidation by holes on the surface of the catalyst was confirmed with the oxidation state transformation of metal ions (platinum and lead) deposited on the catalyst from their respective solutions. To obtain an electron rich surface, the synthesis scheme was reversed (x, 0.5 -> 0), which yielded a catalyst with an inverse geometry and directed electron flow towards the surface. The collective impact of the Lorentz force and internal charge carrier drift contributed to excellent recombination suppression and 98% sulfamethoxazole degradation in 30 min. Finally, structural integrity and catalytic potential of the composite after repeated magnetic separation and degradation cycles was assessed to establish its practical applicability.
      原文链接:
    • NSTL
    • Elsevier

    Activating transition metal via synergistic anomalous phase and doping engineering towards enhanced dehydrogenation of ammonia borane

    Li, PingChen, RanHuang, YuqiLi, Wenqin...
    10页
    查看更多>>摘要:Seeking high-performing non-noble transition metal catalysts for hydrogen evolution from chemical hydrogen storage media is significant. Herein we demonstrate for the first time that anomalous crystal phase engineering coupled with heteroatom doping can remarkably activate transition metal (Ni as a proof-of-concept study) for boosting ammonia borane (AB) dehydrogenation. Ni nanoparticles with designated phase (fcc or hcp phase) encapsulated in carbon (fcc-Ni/C and hcp-Ni/C) can be readily derived from Ni-based MOF. Intriguingly, hcp-Ni/C featuring unconventional hcp phase can remarkably outperform fcc-Ni/C with common fcc phase in AB dehydrogenation. Moreover, by doping Cu, dramatically promoted catalysis can be further achieved for hcp-CuNi/C. From experimental and theoretical results, delicate crystal phase together with heteroatom doping engineering can optimize electronic structure of hcp-CuNi/C, facilitating rate-determining step (H2O dissociation), thereby boosting AB hydrolysis. This study details the first insight into the phase and doping engineering over non-noble transition metals for promoting AB dehydrogenation.
      原文链接:
    • NSTL
    • Elsevier

    Constructing Fe/Fe3C nanocrystals with Fe-Nx sites in Fe-N-C electrocatalyst to achieve high performance for solar cells

    Wang, WenZuo, XueqinYang, QiYang, Qun...
    9页
    查看更多>>摘要:Developing Pt-free counter electrodes (CEs) material for dye-sensitized solar cells (DSSCs) is significant. Herein, we fabricate a catalyst of Fe-N-C by employing N-doped hollow carbon flower (NHCF) as a matrix on which Fe-Nx coordination sites and Fe/Fe3C nanocrystals (Fe/Fe3C@NHCF) are mounted and coupled. The DSSC with Fe/Fe3C@NHCF CE achieves power conversion efficiency (PCE) of 9.37% and highly outperforms the one with Pt CE (7.77%). It is uncovered that Fe/Fe3C nanocrystals and Fe-Nx coordination sites generate a synergetic effect to enhance catalytic activity of the tri-iodide reduction reaction. The reasons are as follows: (1) Fe/Fe3C nanocrystals, which possess abundant interfaces and effectively promote the adsorption of reactants on the catalyst surface and charge transfer; (2) Atomically Fe-Nx configurations reduce charge density of Fe atomic centers and quicken reaction kinetics; (3) The unique structure of NHCF matrix almost utilizes all Fe/Fe3C nanocrystals, providing coupling bridge for nanocrystals with Fe-Nx sites.
      原文链接:
    • NSTL
    • Elsevier

    Top-down and facet-selective phase-segregation to construct concave nanocages with strongly coupled hetero-interface for oxygen evolution reaction

    Wang, JingchunYang, AnzhouLi, JiatianSu, Keying...
    9页
    查看更多>>摘要:In this study, a top-down and site-selective anion etching method is devised to stepwisely carve out the NiCo (OH)(2)/NiS2 concave hetero-cages (CHCs) from NiCo Prussian blue analogue (PBA) cube. DFT calculation investigates that the synthetic mechanism is based on anisotropic reactivity of each etchant acted in different facets of NiCo PBA cube and can be generalized to various heterogeneous combinations by tuning their dissolution and reconstitution kinetics (i.e. NiCoB/NiS2, NiCoP/NiS2). Such strategy without adding extra metal source generates strongly coupled heterointerface with hollow, concave, and ultrathin (similar to 16.2 nm) features, which could harvest abundant active sites, tune the electronic structure, and induce strong lattice strain of Ni. Specifically, the NiCo (OH)(2)/NiS2 CHCs manifest superior activity and stability toward oxygen evolution reaction (OER), with an overpotential of 258.0 mV required for 10.0 mA cm(-2), a Tafel slope of 38.3 mV dec(-1), and favorable long-term durability in 1.0 M KOH.
      原文链接:
    • NSTL
    • Elsevier

    Efficient electrochemical ethanol-to-CO2 conversion at rhodium and bismuth hydroxide interfaces

    Lan, BingWang, Qiong-LanMa, Zhao-XiaWu, Ya-Juan...
    7页
    查看更多>>摘要:Improving the CO2 selectivity of ethanol oxidation reaction (EOR) is a crucial research topic right now. Rh could effectively break the C-C bond of ethanol, nevertheless, pristine Rh still exhibit negligible EOR activity due to the poisoning effect of C1 intermediates. To solve it, here we fabricate modified Rh interfaces with highly-dispersive Bi(OH)(3) species as directed by the Langmuir-Hinshelwood Mechanism, the strong interaction be-tween Rh and Bi(OH)(3) could provide the so-called electronic effect and bifunctional effect. Thus it facilitates the C-C bond cleavage at Rh sites and the electrooxidation of as-generated C1 intermediates even at low over-potentials. Eventually, the optimal Rh-Bi(OH)(3) catalysts show an apparent C1 pathway faraday efficiency of 26.2% at 0.67 V vs. RHE, the EOR mass activity of ca. 3500 mA mg(-1 Rh)and 10-hour-long durability. This work could provide an insightful and promising route in promoting the CO2 selectivity of EOR with high activity and long stability.
      原文链接:
    • NSTL
    • Elsevier

    Oxygen vacancies in Co3O4 promote CO2 photoreduction

    Zhang, QiYang, PengjuZhang, HongxiaZhao, Jianghong...
    12页
    查看更多>>摘要:The introduction of oxygen vacancies (OVs) in metal oxides has been proved to be a powerful means for promoting the activation of CO2. However, the lack of effective methods for OVs implantation currently hampers the rational design of highly-active CO2 reduction catalysts. Herein, we reported a novel non-equilibrium photochemical strategy for preparing OV-rich Co3O4 at ambient temperature and pressure. Results confirm that the single isolated OV and Co-OV associates are the predominant defect types within Co3O4 skeleton. Moreover, the OVs concentration in Co3O4 can be tuned over a wide range by merely controlling the light-irradiation time. The experiments and theoretical calculations reveal that the OVs can promote the adsorption/activation of CO2 and water, while considerably lowering the free energy barrier for COOH* formation, thereby accelerating the reaction kinetics. The OV-rich Co3O4 displays a 26.7-fold improvement in CO2 reduction activity over the OV-poor Co3O4. The turnover frequency of Co atoms in OV-rich Co3O4 reaches 3.754 s(-1), which is one of the best reported catalysts for CO2 photoreduction to date. Moreover, we also successfully synthesize a series of defect-rich metal oxides and metal sulfides using this photochemical method, such as TiO2, Fe2O3, CuO, Mn3O4, CeO2, V2O5, MoO3, ZrO2, Bi2O3, MoS2, MnS, CdS, NiS2-Ni3S4 and Bi2S3-BiS2, which suggests its universality. We believe this photochemical method developed herein greatly enriches the knowledge for the synthesis of defective nanocrystals under mild synthesis conditions. Importantly, the relationship between the OVs and the CO2 reduction performance has been established by various characterizations, which may guide the design of highly-efficient catalysts for CO2 photofixation.
      原文链接:
    • NSTL
    • Elsevier

    Ru(III) single site solid micellar catalyst for selective aqueous phase hydrogenation of carbonyl groups in biomass-derived compounds

    Wang, QiyanSantos, SaraUrbina-Blanco, Cesar A.Zhou, Wenjuan...
    10页
    查看更多>>摘要:Catalytic processes in water have a lower environmental impact, cost, and toxicity than in organic solvents. Considering the high content of water in biomass, it would be natural to use aqueous phase catalytic technology for the production of valuable products. However, in the aqueous phase, most metal-based catalysts suffer from low activity, low selectivity and deactivation due to metal oxidation and leaching. In this paper, we propose a solid micellar Ru catalyst (Ru(III)@MCM) based on single-site Ru(III) species stabilized by cetyltrimethylammonium (CTA+) surfactant and immobilized in the walls of MCM-41 for the selective aqueous phase hydrogenation of carbonyl groups. This catalyst demonstrates exceptional selectivity, activity, and stability in comparison with conventional metallic catalysts. DFT modeling suggests that the reaction proceeds via heterolytic dissociation of hydrogen, forming a Ru-Hydride species, and subsequent hydride transfer to the carbonyl group. Water plays a key role in avoiding product inhibition.
      原文链接:
    • NSTL
    • Elsevier

    Stabilizing the isolated Pt sites on PtGa/Al2O3 catalyst via silica coating layers for propane dehydrogenation at low temperature

    Wang, PengYao, JikangJiang, QikeGao, Xinhua...
    12页
    查看更多>>摘要:Catalytic conversion of propane to propylene can be achieved by non-oxidative propane dehydrogenation (PDH) by Pt-based catalysts under 550-700 degrees C. In this work, we report a strategy to decrease the Pt loading amount to only 0.1 wt% for obtaining a stable catalyst via silica coating for high PDH activity at a temperature as low as of 450 degrees C. The as-prepared 2.5%Si@PtGa/Al2O3 catalyst shows outstanding catalytic activity (propylene productivity rate 0.5 mol/g(cat).h) close to its equilibrium conversion (24.5%) with much better stability (deactivation constant: 0.007 h(-1)) at 450 degrees C. The interface between catalyst and silica coating changes the strong metal-support interaction (SMSI) to immobilize the Ga oxide clusters, further tightly anchoring the Pt catalytic sites for PDH process. Moreover, the electronic state of Pt is also influenced by the silica coating layers. This work demonstrates a new method to harnessing the metal-support interaction in catalysis.
      原文链接:
    • NSTL
    • Elsevier

    Conjugated polymers templated carbonization to design N, S co-doped finely tunable carbon for enhanced synergistic catalysis

    El Fakir, Abdellah AitAnfar, ZakariaEnneiymy, MohamedJada, Amane...
    11页
    查看更多>>摘要:Efficient generation of O-1(2) nonradical species from persulfate (PS) is demonstrated during heterogeneous catalysis systems based on the use of new Nitrogen and Sulfur doped carbons (NC, SC and NSC), as prepared by direct carbonization of polyaniline/polythiophene conjugated polymers at 800 degrees C. Complete organic molecules degradations were achieved with high mineralization rate (similar to 70%) for all systems, over a wide pH range (2.6-9.5) in the presence of PS. Interestingly, the synergistic effect occurring between the N-Graphitic and the S-Thiophenic sites, modulates the surface electron density toward basic carbon structure (N similar to 4.76 at% and S similar to 3.87 at%, with S-BET-251 m(2) g(-1)), leads to increases of the adsorption abilities and the reaction rate constant (from 0.076 to 0.338 min(-1)), and boosts the carbocatalyst' stability. Our discovery sheds new light on new systems promoting the Fenton-like oxidation process by O-1(2) nonradical species, it may be a long-lasting sustainable environmentally strategy for water remediation.
      原文链接:
    • NSTL
    • Elsevier