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Advanced electrochemical analytical tools - the Scanning Flow Cell (SFC)

The SFC is a home-made, advanced microelectrochemical flow cell which provides spatially-resolved information. The electrolyte is continuously flowing through the channels of the SFC over the catalyst, which is placed externally on a three-dimensional translation stage. The translation stage allows the fast and accurate positioning of the flow cell on one catalyst location only, thus other locations remain unaffected. The spatial resolution offered by the SFC allows the investigation of material libraries in a very short time. Thus, it is possible to understand relationships between catalyst composition and performance with addressing only a single with gradient composition. When homogeneous catalysts are used, the investigation of the operational parameters is possible, without the need to prepare the catalyst in every experiment, which offers excellent reproducibility. However, the electrochemical signal alone (e.g. current versus potential) does not provide information on, for instance, the dissolution products during catalyst degradation, or the product distribution in a complex electrochemical reaction that forms many products. This is solved by coupling the SFC with appropriate analytical techniques (e.g. real-time TOF/MS, ICP/MS, UV/Vis etc). This comprises a very powerful tool in which electrochemical data are complemented with information on the product distribution or elemental dissolution online. Therefore, the SFC allows the systematic investigation of an immeasurable number of materials and experimental conditions, at a time that is not accessible with state-of-the-art approaches.

Advanced electrochemical analysis tools - the Scanning Flow Cell (SFC)Copyright: Dr. Claudius Laska/Max-Planck-Institut für Eisenforschung GmbH

X-ray Photoelectron Spectroscopy (XPS)

The Quantera II is a unique scanning XPS microprobe that provides outstanding large area and unequaled micro-area spectroscopy performance. It is designed for rapid, spatially resolved elemental and chemical analysis of solid surfaces.

Capabilities of the Quantera II include: x-ray beam induced secondary electron imaging for rapid and confident location of small sample features, large and micro-area spectroscopy, chemical state XPS imaging, high performance sputter depth profiling, automated angle dependent depth profiling, turnkey insulator analysis, and a robotic sample handling platform to automate the analysis of multiple experiments or samples.

The Quantera II provides x-ray excited secondary electron imaging of the sample surface in a manor analogous to how an SEM generates a secondary electron image. This unique feature utilizes the scanned x-ray beam to generate secondary electrons that are collected by the Quantera’s energy analyzer to provide images with topographical or surface chemical contrast information in a few seconds. X-ray excited secondary electron images can be acquired from insulating or conducting samples without coating or masking the sample. The use of the same hardware for secondary electron imaging and XPS measurements ensures that spectroscopic information is coming from areas selected on secondary electron images.

The Quantera II accepts up to three 75 x 75 mm sample platens that can be loaded with samples for automated analysis. The maximum sample size is 100 mm in diameter and up to 25 mm in thickness. Up to three platens may be loaded into the analysis chamber for automated analysis.

X-ray Photoelectron Spectroscopy (XPS)Copyright: Physical Electronics

Focused Ion Beam - Scanning Electron Microscope (FIB-SEM)

For the characterization and machining of materials on the nanoscale, the HI ERN has installed a Zeiss XB 540. This microscope combines a scanning electron microscope (SEM) with a focussed ion beam (FIB). In this type of instrument, the electron beam is commonly used for imaging, while the ion beam serves the purpose of removal of very small volumes of material. For imaging, a number of detectors are present on the instrument, including for secondary electrons, backscattered electrons and transmitted electrons as well as electron backscatter diffraction (EBSD) and x-ray analysis (EDXS). For advanced sample manipulation and electrical probing, two micromanipulators with rotary axes and a micro-gripper are available. For beam sensitive samples, as well as samples containing components with a high vapour pressure at room temperature, a cryo-stage capable of cooling to -185°C is installed. To ensure optimal adoption to specific needs, software for automated sample preparation, tomography and hardware integration is available.

Focused Ion Beam - Scanning Electron Microscope (FIB-SEM)Copyright: Georg Pöhlein

Other facilities

We additionally utilize standard electrochemical cells (e.g. 3-electrode RDE cells and 2-electrode electrolyzers), analytical setups (e.g. gas chromatographs, quadrupole mass spectrometers) or surface characterization techniques (SEM/EDX, XRF, Laser Scanning Microscope) etc.

Recent Publications

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Essentials of High Performance Water Electrolyzers – From Catalyst Layer Materials to Electrode Engineering
Advanced energy materials 11(44 ), 2101998 () [10.1002/aenm.202101998]  Download fulltext Files BibTeX | EndNote: XML, Text | RIS

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Electroreductive 5‐Hydroxymethylfurfural Dimerization on Carbon Electrodes
ChemSusChem XXX, cssc.202101575 () [10.1002/cssc.202101575] BibTeX | EndNote: XML, Text | RIS

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Accessing In Situ Photocorrosion under Realistic Light Conditions: Photoelectrochemical Scanning Flow Cell Coupled to Online ICP-MS
ACS measurement science Au 1(2), 74-81 () [10.1021/acsmeasuresciau.1c00016] OpenAccess  Download fulltext Files  Download fulltextFulltext by OpenAccess repository BibTeX | EndNote: XML, Text | RIS

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Impact of catalyst loading, ionomer content, and carbon support on the performance of direct isopropanol fuel cells
Journal of power sources advances 10, 100064 - () [10.1016/j.powera.2021.100064] OpenAccess  Download fulltext Files  Download fulltextFulltext by OpenAccess repository BibTeX | EndNote: XML, Text | RIS

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The Crucial Role of Water in the Stability and Electrocatalytic Activity of Pt Electrodes
The journal of physical chemistry <Washington, DC> / C 125(24), 13254–13263 () [10.1021/acs.jpcc.1c02124] Embargoed OpenAccess  Download fulltext Files  Download fulltextFulltext by OpenAccess repository BibTeX | EndNote: XML, Text | RIS