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1. Remote Activation of H-H Bonds by Platinum in Dilute Alloy Catalysts.

Author

Han, Tongxin, Li, Yuanyuan, Wu, Tao, Meira, Debora, Xiang, Shuting, Cao, Yueqiang, Lee, Ilkeun, Zhou, Xing-Gui, Jiang, De-En, Frenkel, Anatoly, and Zaera, Francisco

Abstract

With heterogeneous catalysts, chemical promotion takes place at their surfaces. Even in the case of single-atom alloys, where small quantities of a reactive metal are dispersed within the main host, it is assumed that both elements are exposed and available to bond with the reactants. Here, we show, on the basis of in situ X-ray absorption spectroscopy data, that in alloy catalysts made from Pt highly diluted in Cu the Pt atoms are located at the inner interface between the metal nanoparticles and the silica support instead. Kinetic experiments indicated that these catalysts still display better selectivity for the hydrogenation of unsaturated aldehydes to unsaturated alcohols than the pure metals. Density functional theory calculations corroborated the stability of Pt at the metal-support interface and explained the catalytic performance as being due to a remote lowering of the activation barrier for the dissociation of H2 at Cu sites by the internal Pt atoms.

Published
2024

3. Vanadate Retention by Iron and Manganese Oxides

Author

Abernathy, Macon J, Schaefer, Michael V, Ramirez, Roxana, Garniwan, Abdi, Lee, Ilkeun, Zaera, Francisco, Polizzotto, Matthew L, and Ying, Samantha C

Subjects
Inorganic Chemistry, Chemical Sciences, adsorption, surface complexation, redox, goethite, birnessite, Chemical sciences, Earth sciences, Physical sciences
Abstract

Anthropogenic emissions of vanadium (V) into terrestrial and aquatic surface systems now match those of geogenic processes, and yet, the geochemistry of vanadium is poorly described in comparison to other comparable contaminants like arsenic. In oxic systems, V is present as an oxyanion with a +5 formal charge on the V center, typically described as H x VO4 (3-x)-, but also here as V(V). Iron (Fe) and manganese (Mn) (oxy)hydroxides represent key mineral phases in the cycling of V(V) at the solid-solution interface, and yet, fundamental descriptions of these surface-processes are not available. Here, we utilize extended X-ray absorption fine structure (EXAFS) and thermodynamic calculations to compare the surface complexation of V(V) by the common Fe and Mn mineral phases ferrihydrite, hematite, goethite, birnessite, and pyrolusite at pH 7. Inner-sphere V(V) complexes were detected on all phases, with mononuclear V(V) species dominating the adsorbed species distribution. Our results demonstrate that V(V) adsorption is exergonic for a variety of surfaces with differing amounts of terminal -OH groups and metal-O bond saturations, implicating the conjunctive role of varied mineral surfaces in controlling the mobility and fate of V(V) in terrestrial and aquatic systems.

Published
2022

7. Tailoring a Three-Phase Microenvironment for High-Performance Oxygen Reduction Reaction in Proton Exchange Membrane Fuel Cells

Author

Zhao, Zipeng, Hossain, Delowar, Xu, Chunchuan, Lu, Zijie, Liu, Yi-Sheng, Hsieh, Shang-Hsien, Lee, Ilkeun, Gao, Wenpei, Yang, Jun, Merinov, Boris V, Xue, Wang, Liu, Zeyan, Zhou, Jingxuan, Luo, Zhengtang, Pan, Xiaoqing, Zaera, Francisco, Guo, Jinghua, Duan, Xiangfeng, Goddard, William A, and Huang, Yu

Subjects
Engineering, Materials Engineering, Chemical Sciences, Affordable and Clean Energy, Macromolecular and materials chemistry, Materials engineering, Nanotechnology
Abstract

Despite tremendous progress in catalyst development for rate-limiting cathodic oxygen reduction reaction (ORR), reducing Pt usage while meeting performance requirements in practical proton exchange membrane fuel cells (PEMFCs) remains a challenge. The ORR in PEMFCs occurs at a catalyst–electrolyte–gas three-phase interface. A desirable interface should exhibit highly active and available catalytic sites, as well as allow efficient oxygen and proton feeding to the catalytic sites and timely removal of water to avoid interface flooding. Here, we report the design of a three-phase microenvironment in PEFMCs, showing that carbon surface chemistry can be tuned to modulate its interaction with the ionomers and create favorable transport paths for rapid delivery of both reactants and products. With such an elaborate interfacial design, for the first time we have demonstrated PEMFCs with all key ORR catalyst performance metrics, including mass activity, rated power, and durability, surpassing the US Department of Energy targets.

Published
2020

8. In situ identification of surface sites in Cu–Pt bimetallic catalysts: Gas-induced metal segregation.

Author

Han, Tongxin, Li, Yuanyuan, Cao, Yueqiang, Lee, Ilkeun, Zhou, Xinggui, Frenkel, Anatoly I., and Zaera, Francisco

Subjects
BIMETALLIC catalysts, X-ray absorption near edge structure, EXTENDED X-ray absorption fine structure, METAL catalysts, DILUTE alloys, SURFACE segregation, SURFACE diffusion
Abstract

The effect of gases on the surface composition of Cu–Pt bimetallic catalysts has been tested by in situ infrared (IR) and x-ray absorption spectroscopies. Diffusion of Pt atoms within the Cu–Pt nanoparticles was observed both in vacuum and under gaseous atmospheres. Vacuum IR spectra of CO adsorbed on CuPtx/SBA-15 catalysts (x = 0–∞) at 125 K showed no bonding on Pt regardless of Pt content, but reversible Pt segregation to the surface was seen with the high-Pt-content (x ≥ 0.2) samples upon heating to 225 K. In situ IR spectra in CO atmospheres also highlighted the reversible segregation of Pt to the surface and its diffusion back into the bulk when cycling the temperature from 295 to 495 K and back, most evidently for diluted single-atom alloy catalysts (x ≤ 0.01). Similar behavior was possibly observed under H2 using small amounts of CO as a probe molecule. In situ x-ray absorption near-edge structure data obtained for CuPt0.2/SBA-15 under both CO and He pointed to the metallic nature of the Pt atoms irrespective of gas or temperature, but analysis of the extended x-ray absorption fine structure identified a change in coordination environment around the Pt atoms, from a (Pt–Cu):(Pt–Pt) coordination number ratio of ∼6:6 at or below 445 K to 8:4 at 495 K. The main conclusion is that Cu–Pt bimetallic catalysts are dynamic, with the composition of their surfaces being dependent on temperature in gaseous environments. [ABSTRACT FROM AUTHOR]

Published
2022
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11. Promotion of atomic hydrogen recombination as an alternative to electron trapping for the role of metals in the photocatalytic production of H2

Author

Joo, Ji Bong, Dillon, Robert, Lee, Ilkeun, Yin, Yadong, Bardeen, Christopher J, and Zaera, Francisco

Subjects
Affordable and Clean Energy, Catalysis, Dental Alloys, Electrons, Fluorescence, Hydrogen, Metals, Nanostructures, Photochemistry, Semiconductors, Solar Energy, photocatalysis, hydrogen production, gold-titania, time-resolved fluorescence, core-shell nanostructures, gold–titania
Abstract

The production of hydrogen from water with semiconductor photocatalysts can be promoted by adding small amounts of metals to their surfaces. The resulting enhancement in photocatalytic activity is commonly attributed to a fast transfer of the excited electrons generated by photon absorption from the semiconductor to the metal, a step that prevents deexcitation back to the ground electronic state. Here we provide experimental evidence that suggests an alternative pathway that does not involve electron transfer to the metal but requires it to act as a catalyst for the recombination of the hydrogen atoms made via the reduction of protons on the surface of the semiconductor instead.

Published
2014

12. Hydrous Ruthenium Oxide Nanoparticles Anchored to Graphene and Carbon Nanotube Hybrid Foam for Supercapacitors

Author

Wang, Wei, Guo, Shirui, Lee, Ilkeun, Ahmed, Kazi, Zhong, Jiebin, Favors, Zachary, Zaera, Francisco, Ozkan, Mihrimah, and Ozkan, Cengiz S

Subjects
Engineering, Materials Engineering, Chemical Sciences, Physical Chemistry, Affordable and Clean Energy, Electric Capacitance, Electric Power Supplies, Graphite, Nanoparticles, Nanotubes, Carbon, Ruthenium Compounds
Abstract

In real life applications, supercapacitors (SCs) often can only be used as part of a hybrid system together with other high energy storage devices due to their relatively lower energy density in comparison to other types of energy storage devices such as batteries and fuel cells. Increasing the energy density of SCs will have a huge impact on the development of future energy storage devices by broadening the area of application for SCs. Here, we report a simple and scalable way of preparing a three-dimensional (3D) sub-5 nm hydrous ruthenium oxide (RuO2) anchored graphene and CNT hybrid foam (RGM) architecture for high-performance supercapacitor electrodes. This RGM architecture demonstrates a novel graphene foam conformally covered with hybrid networks of RuO2 nanoparticles and anchored CNTs. SCs based on RGM show superior gravimetric and per-area capacitive performance (specific capacitance: 502.78 F g(-1), areal capacitance: 1.11 F cm(-2)) which leads to an exceptionally high energy density of 39.28 Wh kg(-1) and power density of 128.01 kW kg(-1). The electrochemical stability, excellent capacitive performance, and the ease of preparation suggest this RGM system is promising for future energy storage applications.

Published
2014

21. Use of Au@Void@TiO2 yolk-shell nanostructures to probe the influence of oxide crystallinity on catalytic activity for low-temperature oxidations.

Author

Lee, Ilkeun and Zaera, Francisco

Subjects
*TITANATES, *CATALYTIC activity, *OXIDATION of carbon monoxide, *X-ray photoelectron spectroscopy, *LOW temperatures, *CRYSTALLINITY
Abstract

A series of Au@Void@TiO2 yolk-shell structures were synthesized and characterized, and their catalytic activity was tested for the oxidation of carbon monoxide. The target of this work was to evaluate the effects of (1) the crystallinity of the TiO2 shell and (2) the presence of titanate phases. Transmission electron microscopy and X-ray diffraction data show that increasing calcination temperatures, from 850 to 1250 K, leads to the formation of larger titania crystallites. These crystallites are typically in the form of anatase, but some rutile is also made at high temperatures. The general yolk-shell nanostructures retain their basic characteristics upon calcination and upon treatment with HCl (used to remove the titanate phases), but a few structural and chemical changes do take place: (1) the void-space diameter is reduced by approximately 10% when going from TCalc = 850 K to TCalc = 1250 K, a change that is accompanied by a decrease in the surface area (estimated from N2 adsorption-desorption isotherms); (2) the shell thickness remains unaffected by either calcination or HCl treatment; (3) the pore volume also remains approximately constant with increasing calcination temperature in the catalysts free of titanates but diminishes significantly in the samples with titanate phases; (4) the mesoporosity is minimal in all yolk-shell nanostructures but more noticeable with the pure TiO2 shells; (5) the titanates have high Na content (measured by X-ray photoelectron spectroscopy), but that Na is fully removed upon treatment with HCl; (6) no Ti3+ was detectable in any of the samples, but silica, together with C and (minor amounts of) N, was present in all; (7) all Au is in metallic form; (8) two temperature regimes were observed for the catalytic oxidation of CO, as reported for other similar samples in the past, an Arrhenius regime around or above room temperature, and a cryogenic range going to temperatures as low as 120 K; (9) the latter regime is only seen with the samples containing titanate phases; (10) the titanates seem to also aid in the oxidation at higher temperatures; and (11) in general, increasing titania crystallinity leads to a decrease the catalytic activity. [ABSTRACT FROM AUTHOR]

Published
2019
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22. CO Oxidation Catalyzed by Au Dispersed on SBA-15 Modified with TiO 2 Films Grown via Atomic Layer Deposition (ALD).

Author

Qin, Xiangdong, Ke, Wang, Vazquez, Yovanny, Lee, Ilkeun, and Zaera, Francisco

Subjects
ATOMIC layer deposition, TITANIUM dioxide, INFRARED absorption, CATALYTIC oxidation, INFRARED spectroscopy, TITANIUM dioxide films, OXIDATION of carbon monoxide, OXIDATION
Abstract

It has been established that gold, when in nanoparticle (NP) form and in contact with reducible oxides, can promote oxidation reactions under mild conditions. Here, we report results from our exploration of the catalytic oxidation of carbon monoxide using catalysts where Au NPs were combined with thin titanium oxide films deposited on SBA-15 using atomic layer deposition (ALD). Both orders of deposition, with TiO2 added either before or after Au dispersion, were tested for two titania film thicknesses amounting to about half and full TiO2 monolayers. The resulting catalysts were characterized using various techniques, mainly electron microscopy and N2 adsorption–desorption isotherms, and the kinetics of the oxidation of CO with O2 were followed using infrared absorption spectroscopy. A synergy between the Au and TiO2 phases as it relates to the bonding and conversion of CO was identified, the tuning of which could be controlled by varying the synthetic parameters. The ALD of TiO2 films proved to be an effective way to maximize the Au-TiO2 interface sites, and with that help with the activation of molecular oxygen. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Effect of metal nanoparticle size and titania crystallinity on the performance of Au/TiO2 catalysts for the promotion of carbon monoxide oxidation at cryogenic temperatures.

Author

Lee, Ilkeun and Zaera, Francisco

Subjects
*OXIDATION of carbon monoxide, *TITANATES, *CARBON dioxide adsorption
Abstract

The ability of Au/TiO2 catalysts to promote the oxidation of carbon monoxide at cryogenic temperatures was probed by using diffuse-reflectance infrared absorption spectroscopy (DRIFTS). The focus of this work was to identify correlations between the catalytic activity and both the nature of the titania support and the size of the Au nanoparticles (NPs). Two key intermediates were identified: an initial CO adsorbed on defect sites within the titania support with a 2175 cm−1 C–O stretching frequency signature, and a second species with a DRIFTS peak at 2163 cm−1 associated with the intermediate at Au–TiO2 interfacial sites that incorporates atomic oxygen to produce CO2. CO adsorption at the low temperatures associated with this process (120 K) appears to require defective sites, possibly titanate-type surface species: an amorphous (and NaOH-treated) support showed higher activity than crystalline titania. In addition, the catalytic activity peaks at an Au NP average size of about 3 nm, which, in turn, correlates with the population of the second CO intermediate mentioned above. The mechanism that explains this cryogenic oxidation reaction is different than that extensively reported for the room-temperature processes, but both appear to display similar dependence on Au NP diameter. [ABSTRACT FROM AUTHOR]

Published
2019
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35. Nucleation and Initial Stages of Growth during the Atomic Layer Deposition of Titanium Oxide on Mesoporous Silica

Author

Ke, Wang, primary, Liu, Yang, additional, Wang, Xuelong, additional, Qin, Xiangdong, additional, Chen, Limei, additional, Palomino, Robert M., additional, Simonovis, Juan Pablo, additional, Lee, Ilkeun, additional, Waluyo, Iradwikanari, additional, Rodriguez, José A., additional, Frenkel, Anatoly I., additional, Liu, Ping, additional, and Zaera, Francisco, additional

Published
2020
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39. Dynamics of nematic MBBA film induced by transient grating under a strong absorption condition

Author

Yoon, Bohyun, Sun Hee Kim, Lee, Ilkeun, Kim, Seong Kyu, Cho, Minhaeng, and Kim, Hackjin

Subjects
Liquid crystals -- Research, Diffraction gratings -- Research, Absorption spectra -- Usage, Chemicals, plastics and rubber industries
Abstract

A nematic 4-methoxybenzylidene-4-n-butylaniline (MBBA) liquid crystal film that is 170 micrometers thick was subjected to crossed beam excitation to provide time profiles for transient grating diffraction signals. Findings indicate that a fast component produced from thermal diffusion near the surface exhibits a strong dependence on the polarization of the probe beam. As temperature approaches the phase transition point, optical nonlinearity increases to such an extent that multiple order diffractions are visible.

Published
1998

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