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Crozier Research Group

  • Seeing with Electrons
    • Contact
    • Research Opportunities
    • Prospective Student FAQs
  • Group Updates
  • Research
    • Nanoscale Phononics, Photonics, and Polaritonic Processes
    • Functional Ceramics and Structural Dynamics
    • Surface and Interface Phenomena on Catalytic Materials
    • Elucidating Spatio-Temporal Dynamics through Machine-Learning and Advance Data Science Methods
  • Gallery
  • People
    • Peter A. Crozier
    • Postdoctoral Researchers
    • Graduate Students
      • Piyush Haluai
      • Mai Tan
      • Yifan Wang
    • Undergraduate Students
      • Blake Dorame
    • Group Alumni
      • Tara Boland
      • Advait Gilankar
      • Rachel Gorelik
      • Jimmy Vinh
      • Rishav Kumar Baranwal
      • Ramón Manzorro
      • Hanley Beck
      • Halle Beck
      • Joshua Vincent
      • Claire Block
      • Kartik Venkatraman
      • Brandon Bolas
      • Jarod Vance
      • Diane Haiber
      • Barnaby Levin
      • Ethan Lawrence
      • Sunny Situ
      • Valielza O’Keefe
      • Benjamin Shindel
      • Adam Siegel
      • Tu-Uyen Phan
      • Brittney Hauke
      • Qianlang Liu
      • William Bowman
      • Jayse Langdon
      • Joslin Jose
      • Ben Miller
      • Liuxian Zhang
      • Adam Pocock
      • Chelsey McAlpin
      • Cruz Hernandez
      • Zahra Hussaini
      • Sanjitarani Santra
      • Trevor Barker
  • Publications
  • Education & Outreach
    • Introduction to TEM
    • MSE 494/598 Nanomaterials in Energy Production and Storage
    • Advanced (S)TEM/EELS
      • In situ/Operando Transmission Electron Microscopy
      • Monochromated STEM-EELS
    • Computational Modeling and Simulation
      • Atomistic Modeling
      • Dielectric Theory
      • TEM Image Simulation
      • COMSOL Simulation
  • Workshop Reports

Characterizing Active Sites During Catalysis

The Crozier group specializes in the development and application of in situ and operando electron microscopy to catalysts.

References to read for more information

  • In Situ and Operando Transmission Electron Microscopy of Catalytic Materials
  • Current Status and Future Directions for In Situ Transmission Electron Microscopy
  • Atomic-Scale Observations of Catalyst Structures under Reaction Conditions and during Catalysis

  1. Dynamic structures in active sites of ceria supported Pt catalyst for water gas shift reaction, Nature Communication, 2021
  2. Atomic level fluxional behaviour and activity of ceria-supported Pt catalyst for CO oxidation, Nature Communication, 2021
  3. Linking Changes in Reaction Kinetics and Atomic-Level Surface Structures on a Supported Ru Catalyst for CO Oxidation, ACS Catalysis 2021
  4. Chemical kinetics for operando electron microscopy of catalysts: 3D modeling of gas and temperature distributions during catalytic reactions, Ultramicroscopy, 2020
  5. Analysis of Catalytic Gas Products Using Electron Energy-Loss Spectroscopy and Residual Gas Analysis for Operando Transmission Electron Microscopy, Microscopy and Microanalysis, 2014
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