• Skip to Page content
  • Skip to WISTA Sites
  • Skip to Main menu
WISTA
  • WISTA
  • WISTA.Plan
  • WISTA.Service
  • Adlershof
  • Charlottenburg
  • South West
  • Marzahn
  • WISTA direkt
  • Search
    • de
    • en
  • WISTA
  • WISTA Management
    • Mission / Management
      • Company Profile
      • Team
      • Boards
      • Annual Reports
      • Invitations to tender
      • Business Office Zukunftsorte
    • Sustainability / Diversity
    • Subsidiaries
    • Directions
  • News / Press
    • Overview
    • News
    • Events / Calendar
      • Diversity Conference Adlershof
    • Social Media Wall
    • Press
    • Magazine "Potenzial"
    • Adlershof Journal
    • Downloads
  • Services
    • All WISTA services
    • Business programmes
      • Adlershof Startup Lab
    • Networks / Cooperations
    • Talent promotion / Recruiting
    • Event and Visitors Service
  • Projects
    • Focus Topics
    • Team Innovation
  • Sites
    • Overview
    • Technology Park Adlershof
      • Business Directory
    • Innovation Centre CHIC Charlottenburg
    • Innovation Campus FUBIC South West
    • CleanTech Business Park Marzahn
    • House of Games
    • Zukunftsorte Berlin
  • Real Estate
    • Current Real Estate Offers
    • ST3AM Working Environments
    • Facility Management
  • Talents
    • Overview
    • WISTA as Employer
      • Jobs
    • WISTA Academy
    • Talent Promotion / Training
      • workhier! Young Academics Career Program
      • STEM project SLE
  • WISTA
  • WISTA.Plan
  • WISTA.Service
  • Adlershof
  • Charlottenburg
  • South West
  • Marzahn
WISTA direkt
  • Home WISTA Management
  • News / Press

News / Press

  • Overview
  • News
  • Events / Calendar
  • Social Media Wall
  • Press
  • Magazine "Potenzial"
  • Adlershof Journal
  • Downloads
  • Editorial Staff
  • Home WISTA Management
  • News / Press
25. April 2025

New instrument at BESSY II for investigating energy materials

OÆSE endstation in EMIL offers insights into dynamic electrochemical processes

The new end station was set up in the EMIL laboratory. © R. Garcia-Diez/HZB

A new instrument is now available at BESSY II for investigating catalyst materials, battery electrodes and other energy devices under operating conditions: the Operando Absorption and Emission Spectroscopy on EMIL (OÆSE) endstation in the Energy Materials In-situ Laboratory Berlin (EMIL). A team led by Raul Garcia-Diez and Marcus Bär showcases the instrument’s capabilities via a proof-of-concept study on electrodeposited copper.

Solar cells, catalysts, and batteries are composed of so-called energy materials, i.e., materials that either convert or store energy. Their functionality is based on complex chemical or physical processes. In order to improve their functionality, it is crucially required to understand those processes, ideally while they are taking place, i.e. by in situ and operando studies. A new experimental station enabling corresponding experiments is now available at the Energy Materials In-situ Laboratory Berlin (EMIL) located at the synchrotron facility BESSY II.

The “Operando Absorption and Emission Spectroscopy on EMIL” (OÆSE) provides detailed insights into the electronic and chemical structures of materials and interfaces and their changes during critical (electro)chemical processes via X-ray absorption (XAS) and emission (XES) spectroscopy .

At the heart of the OÆSE endstation is a modular and flexible in situ/operando sample environment, specially tailored to tackle the specific research questions required for each energy material, which design ensures easy adaptation to different experiments.

To demonstrate the capabilities of the OÆSE endstation, the team led by Raul Garcia-Diez and Marcus Bär studied in situ the electrochemical deposition of copper from an aqueous CuSO4 electrolyte using combined soft and hard X-ray absorption spectroscopy exploiting the two-color beamline of EMIL. The case study shows that the new endstation offers valuable insights into dynamic electrochemical processes and thus enables a better understanding of complex electrochemical systems.

Publication:

Journal of Synchrotron Radiation (2025): The OÆSE endstation at BESSY II: operando X-ray absorption spectroscopy for energy materials
Raul Garcia-Diez, Johannes Frisch, Marianne van der Merwe, Romualdus Enggar Wibowo, Mihaela Gorgoi, Elmar Kataev, Catalina E. Jimenez, Mauricio D. Arce, William Smith, Wilson Quevedo-Garzon, Regan G. Wilks, Dirk Wallacher, Leonhard J. Reinschlüssel, Gülen C. Tok, Hubert A. Gasteiger and Marcus Bär
DOI: 10.1107/S160057752500116X

Contact:

Helmholtz-Zentrum Berlin für Materialien und Energie
Department Interface Design

Dr. Raul Garcia Diez / FUB
+49 30 8062-15642
raul.garcia_diez(at)helmholtz-berlin.de 

Prof. Dr. Marcus Bär
+49 30 8062-15641 / +49 30 8062-42678
marcus.baer(at)helmholtz-berlin.de

Press Officer:
Dr. Antonia Rötger
+49 30 8062-43733
antonia.roetger(at)helmholtz-berlin.de

 

Press release HZB, 23 April 2025

Analytics Research Renewable Energies Microsystems / Materials

Related News

X-ray light strikes the measuring cell vertically

New sample environment at BESSY II allows glimpse into thermocatalytic processes

A novel measurement cell allows, for the first time, X-ray investigations under high pressures and temperatures
SEM images of LPSCl pellets before (left) and after (right) the operando HAXPES experiment. © 10.1021/acsenergylett.4c01072

BESSY II shows how solid-state batteries degrade

A team of researchers from HZB and Justus Liebig University Giessen present a new method for surface characterization of battery materials
Illustration: oxidation pathways of aqueous phosphoric acid © HZB

Oxidation processes of phosphoric acid revealed by tender X-rays

Results of research at HZB help to increase the lifetime and efficiency of fuel cells

Share this page

  • © WISTA Management GmbH
  • Legal Notice
  • Privacy Policy
  • Contact
  • Career
  • Press
  • Social Media Guide
Member of:
Zukunftsorte Berlin Logo