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  • SURFCAT - Surface Physics & Catalysis
    • About
    • SURFCAT Collaboration
    • SurfCat Teaching
    • Recent publication highlights
    • Publication
    • SURFCAT Research
    • Spin-out
    • Concepts of Modern Catalysis and Kinetics
    • Staff
    • SURFCAT Summer School 2022
    • SURFCAT Summer School 2024
  • CAMD - Computational Atomic-scale Materials Design
  • 2DPHYS - 2D Materials Engineering and Physics
  • MAGNET - Magnetic Materials and Neutron Scattering
  • 4DMAP - Materials Physics in Time and Space
  • PPFE - Plasma Physics and Fusion Energy
  • FLUIDS - Biophysics and Fluids
  • LUMPHYS - Luminescence Physics and Technologies
  • QPIT - Quantum Physics and Information Technology

SURFCAT - Surface Physics & Catalysis

The main objective of SURFCAT is to investigate the fundamental relation of surfaces reactivity and activity with perspctive of developing new and more efficient catalysts.

SURFCAT featured publications

Real-Time Detection of Acetaldehyde in Electrochemical CO Reduction on Cu Single Crystals
Yu Qiao, Degenhart Hochfilzer, Jakob Kibsgaard, Ib Chorkendorff and Brian Seger




Electrocatalysis

Development of catalysts for electrochemical reactions where the electrode acts as a heterogeneous catalyst – particularly of interest for sustainable energy conversion

Heterogeneous catalysis

Focuses on gaining fundamental understanding of catalysis and catalytic processes and applying the knowledge for exploring novel catalytic materials


Photocatalysis

"Dream device" for water splitting: A high-bandgap semiconductor and a low-bandgap semiconductor work in conjunction (using both the blue and red light respectively) making a 2-photon tandem unit to efficiently split water into hydrogen and oxygen

Nanoparticle

Fundamental research in the catalytic behavior of mass-selected nanoparticles – with a special focus on catalyzing sustainable fuel production.

Subpages

  • About
  • SURFCAT Collaboration
  • SurfCat Teaching
  • Recent publication highlights
  • Publication
  • SURFCAT Research
  • Spin-out
  • Concepts of Modern Catalysis and Kinetics
  • Staff
  • SURFCAT Summer School 2022
  • SURFCAT Summer School 2024

DTU Physics

Department of Physics

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DTU Lyngby Campus

Building 307 & 309-313
2800 Kgs. Lyngby, Fysikvej

DTU Risø Campus

Building 106 & 201
4000 Roskilde, Frederiksborgvej 399

info@fysik.dtu.dk
Tel.: +45 2381 4736
VAT: 30060946
EAN: 5798000431010

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