Catalysis in Frequency Space : Resolving Hidden Oscillating Minority Phases and Their Catalytic Properties

Knudsen, Jan; Eads, Calley; Klyushin, Alexander; Temperton, Robert; Küst, Ulrike; Boix, Virginia; Kraina, Azemina; Scardamaglia, Mattia; Shavorskiy, Andrey; Kokkonen, Esko; Schnadt, Joachim

Catalysis in Frequency Space : Resolving Hidden Oscillating Minority Phases and Their Catalytic Properties

Mark

Knudsen, Jan ^LU ; Eads, Calley ^LU

; Klyushin, Alexander ^LU ; Temperton, Robert ^LU ; Küst, Ulrike ^LU

; Boix, Virginia ; Kraina, Azemina ^LU ; Scardamaglia, Mattia ^LU ; Shavorskiy, Andrey ^LU and Kokkonen, Esko ^LU

, et al. (2025) In ACS Catalysis 15(3). p.1655-1662

Abstract: In situ catalysis studies typically correlate catalytic function and majority surface structures, but neglect that difficult-to-detect minority structures might govern catalysis. Here we use an oscillating CO:O₂ gas composition to drive structural oscillations on a catalytically active Pd(100) surface and collect X-ray photoelectron spectroscopy data at high measurement frequency to demonstrate that the Fourier-transformed data selectively probe oscillations of minority surface structures and of the gas phase. Using the Fourier transform phase as well as work function shifts in the Fourier-transformed photoemission signal, we synchronize all signals and prove that most CO₂ is produced above predominantly CO-covered... (More); In situ catalysis studies typically correlate catalytic function and majority surface structures, but neglect that difficult-to-detect minority structures might govern catalysis. Here we use an oscillating CO:O₂ gas composition to drive structural oscillations on a catalytically active Pd(100) surface and collect X-ray photoelectron spectroscopy data at high measurement frequency to demonstrate that the Fourier-transformed data selectively probe oscillations of minority surface structures and of the gas phase. Using the Fourier transform phase as well as work function shifts in the Fourier-transformed photoemission signal, we synchronize all signals and prove that most CO₂ is produced above predominantly CO-covered areas.
(Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/6c04aa7f-cb0f-49fa-ab93-fc3b9e5458ba

author

Knudsen, Jan ^LU ; Eads, Calley ^LU

; Klyushin, Alexander ^LU ; Temperton, Robert ^LU ; Küst, Ulrike ^LU

; Boix, Virginia ; Kraina, Azemina ^LU ; Scardamaglia, Mattia ^LU ; Shavorskiy, Andrey ^LU and Kokkonen, Esko ^LU

, et al. (More)

Knudsen, Jan ^LU ; Eads, Calley ^LU

; Klyushin, Alexander ^LU ; Temperton, Robert ^LU ; Küst, Ulrike ^LU

; Boix, Virginia ; Kraina, Azemina ^LU ; Scardamaglia, Mattia ^LU ; Shavorskiy, Andrey ^LU ; Kokkonen, Esko ^LU

and Schnadt, Joachim ^LU

(Less)

organization

publishing date

2025-02-07

type

Contribution to journal

publication status

published

subject

keywords

catalysis, CO oxidation, in situ, operando spectroscopy, Pd(100), time-resolved APXPS

in

ACS Catalysis

volume

15

issue

3

pages

8 pages

publisher

The American Chemical Society (ACS)

external identifiers

scopus:85215598736

ISSN

2155-5435

DOI

10.1021/acscatal.4c06355

language

English

LU publication?

yes

additional info

id

6c04aa7f-cb0f-49fa-ab93-fc3b9e5458ba

date added to LUP

2025-05-05 15:46:02

date last changed

2025-05-06 03:17:38

@article{6c04aa7f-cb0f-49fa-ab93-fc3b9e5458ba,
  abstract     = {{<p>In situ catalysis studies typically correlate catalytic function and majority surface structures, but neglect that difficult-to-detect minority structures might govern catalysis. Here we use an oscillating CO:O<sub>2</sub> gas composition to drive structural oscillations on a catalytically active Pd(100) surface and collect X-ray photoelectron spectroscopy data at high measurement frequency to demonstrate that the Fourier-transformed data selectively probe oscillations of minority surface structures and of the gas phase. Using the Fourier transform phase as well as work function shifts in the Fourier-transformed photoemission signal, we synchronize all signals and prove that most CO<sub>2</sub> is produced above predominantly CO-covered areas.</p>}},
  author       = {{Knudsen, Jan and Eads, Calley and Klyushin, Alexander and Temperton, Robert and Küst, Ulrike and Boix, Virginia and Kraina, Azemina and Scardamaglia, Mattia and Shavorskiy, Andrey and Kokkonen, Esko and Schnadt, Joachim}},
  issn         = {{2155-5435}},
  keywords     = {{catalysis; CO oxidation; in situ; operando spectroscopy; Pd(100); time-resolved APXPS}},
  language     = {{eng}},
  month        = {{02}},
  number       = {{3}},
  pages        = {{1655--1662}},
  publisher    = {{The American Chemical Society (ACS)}},
  series       = {{ACS Catalysis}},
  title        = {{Catalysis in Frequency Space : Resolving Hidden Oscillating Minority Phases and Their Catalytic Properties}},
  url          = {{http://dx.doi.org/10.1021/acscatal.4c06355}},
  doi          = {{10.1021/acscatal.4c06355}},
  volume       = {{15}},
  year         = {{2025}},
}

Lund University Publications

LUND UNIVERSITY LIBRARIES

Catalysis in Frequency Space : Resolving Hidden Oscillating Minority Phases and Their Catalytic Properties