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Title: Interfaces in Heterogeneous Catalysts: Advancing Mechanistic Understanding through Atomic-Scale Measurements

Journal Article · · Accounts of Chemical Research
ORCiD logo [1];  [2]; ORCiD logo [3]
  1. Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Center for Nanophase Materials Sciences (CNMS); Univ. of California, Irvine, CA (United States)
  2. Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Center for Nanophase Materials Sciences (CNMS); Georgia Institute of Technology, Atlanta, GA (United States)
  3. Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Center for Nanophase Materials Sciences (CNMS)
+ Show Author Affiliations

Developing novel catalysts with high efficiency and selectivity is critical for enabling future clean energy conversion technologies. Interfaces in catalyst systems have long been considered the most critical factor in controlling catalytic reaction mechanisms. Interfaces include not only the catalyst surface but also interfaces within catalyst particles and those formed by constructing heterogeneous catalysts. The atomic and electronic structures of catalytic surfaces govern the kinetics of binding and release of reactant molecules from surface atoms. Interfaces within catalysts are introduced to enhance the intrinsic activity and stability of the catalyst by tuning the surface atomic and chemical structures. Examples include interfaces between the core and shell, twin or domain boundaries, or phase boundaries within single catalyst particles. In supported catalyst nanoparticles (NPs), the interface between the metallic NP and support serves as a critical tuning factor for enhancing catalytic activity. Surface electronic structure can be indirectly tuned and catalytically active sites can be increased through the use of supporting oxides. Additionally, tuning interfaces in catalyst systems has been identified as an important strategy in the design of novel catalysts. However, the governing principle of how interfaces contribute to catalyst behavior, especially in terms of interactions with intermediates and their stability during electrochemical operation, are largely unknown. This is mainly due to the evolving nature of such interfaces. Small changes in the structural and chemical configuration of these interfaces may result in altering the catalytic performance. These interfacial arrangements evolve continuously during synthesis, processing, use, and even static operation. A technique that can probe the local atomic and electronic interfacial structures with high precision while monitoring the dynamic interfacial behavior in situ is essential for elucidating the role of interfaces and providing deeper insight for fine-tuning and optimizing catalyst properties.Scanning transmission electron microscopy (STEM) has long been a primary characterization technique used for studying nanomaterials because of its exceptional imaging resolution and simultaneous chemical analysis. Over the past decade, advances in STEM, that is, the commercialization of both aberration correctors and monochromators, have significantly improved the spatial and energy resolution. Imaging atomic structures with subangstrom resolution and identifying chemical species with single-atom sensitivity are now routine for STEM. These advancements have greatly benefitted catalytic research. For example, the roles of lattice strain and surface elemental distribution and their effect on catalytic stability and reactivity have been well documented in bimetallic catalysts. In addition, three-dimensional atomic structures revealed by STEM tomography have been integrated in theoretical modeling for predictive catalyst NP design. Recent developments in stable electronic and mechanical devices have opened opportunities to monitor the evolution of catalysts in operando under synthesis and reaction conditions; high-speed direct electron detectors have achieved sub-millisecond time resolutions and allow for rapid structural and chemical changes to be captured. Investigations of catalysts using these latest microscopy techniques have provided new insights into atomic-level catalytic mechanisms. Further integration of new microscopy methods is expected to provide multidimensional descriptions of interfaces under relevant synthesis and reaction conditions.In this Account, we discuss recent insights on understanding catalyst activity, selectivity, and stability using advanced STEM techniques, with an emphasis on how critical interfaces dictate the performance of precious metal-based heterogeneous catalysts. The role of extended interfacial structures, including those between core and shell, between separate phases and twinned grains, between the catalyst surface and gas, and between metal and support are discussed. We also provide an outlook on how emerging electron microscopy techniques, such as vibrational spectroscopy and electron ptychography, will impact future catalysis research.

Research Organization:
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE; National Science Foundation (NSF)
Grant/Contract Number:
AC05-00OR22725; DMR-1506535; DGE-1148903
OSTI ID:
1856730
Journal Information:
Accounts of Chemical Research, Vol. 50, Issue 4; ISSN 0001-4842
Publisher:
American Chemical Society (ACS)Copyright Statement
Country of Publication:
United States
Language:
English

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Surface/Interfacial Catalysis of (Metal)/Oxide System: Structure and Performance Control journal March 2018
Nanoscale hetero-interfaces between metals and metal compounds for electrocatalytic applications journal January 2019
Rh Catalyzed Selective Hydrogenation of Nitroarenes under Mild Conditions: Understanding the Functional Groups Attached to the Nanoparticles journal October 2019
A three component one-pot synthesis of N-amino-2-pyridone derivatives catalyzed by KF-Al 2 O 3 journal June 2018
Structural properties of sub-nanometer metallic clusters journal January 2019
The Nature and Catalytic Function of Cation Sites in Zeolites: a Computational Perspective journal October 2018
Engineering the Metal/Oxide Interface of Pd Nanowire@CuO x Electrocatalysts for Efficient Alcohol Oxidation Reaction journal December 2019
Advanced Catalysts Derived from Composition‐Segregated Platinum–Nickel Nanostructures: New Opportunities and Challenges journal February 2019
Geometrical Structure of the Gold-Iron(III) Oxide Interfacial Perimeter for CO Oxidation journal July 2018
Recent Advances in Cu‐Based Cocatalysts toward Solar‐to‐Hydrogen Evolution: Categories and Roles journal July 2019
Atomic‐Scale Insights into Surface Lattice Oxygen Activation at the Spinel/Perovskite interface of Co 3 O 4 /La 0.3 Sr 0.7 CoO 3 journal July 2019
Controlled electrodeposition of iron oxide/nickel oxide@Ni for the investigation of the effects of stoichiometry and particle size on energy storage and water splitting applications journal January 2018
Enhanced Selectivity in the Hydrogenation of Anilines to Cyclo-aliphatic Primary Amines over Lithium-Modified Ru/CNT Catalysts journal February 2018
A Ni-based catalyst with enhanced Ni–support interaction for highly efficient CO methanation journal January 2018
Geometrical Structure of the Gold-Iron(III) Oxide Interfacial Perimeter for CO Oxidation journal July 2018
Noble Metal Particles Confined in Zeolites: Synthesis, Characterization, and Applications journal June 2019
Understanding CeO 2 -Based Nanostructures through Advanced Electron Microscopy in 2D and 3D journal October 2018
Iron-oxide-based twin nanoplates with strong T 2 relaxation shortening for contrast-enhanced magnetic resonance imaging journal January 2018
Atomic-Scale Insights into Surface Lattice Oxygen Activation at the Spinel/Perovskite interface of Co 3 O 4 /La 0.3 Sr 0.7 CoO 3 journal July 2019
Catalytic farming: reaction rotation extends catalyst performance journal January 2019
CO 2 electroreduction performance of a single transition metal atom supported on porphyrin-like graphene: a computational study journal January 2017
Ferroelectric enhanced Z-scheme P-doped g-C 3 N 4 /PANI/BaTiO 3 ternary heterojunction with boosted visible-light photocatalytic water splitting journal January 2019
Bimetallic Nanoparticles in Alternative Solvents for Catalytic Purposes journal July 2017
Engineering of Transition Metal Catalysts Confined in Zeolites journal May 2018

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Related Subjects

37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
interfaces
catalysts
platinum
scanning transmission electron microscopy
gold