Advanced Technologies for your Scientific Challenge

KNMFi is a high-tech platform for information-driven structuring and characterizing a multitude of functional materials at the micro- and nanoscale.

The Karlsruhe Nano Micro Facility for Information-driven Material Structuring and Characterization (KNMFi) offers access to a uniquely complete set of fabrication, characterization and information technologies. External users from academia and industry, either national or international, can apply for open and – if the results are published – free access. Annual deadlines for the submission of proposals are January 15 and June 15. Applications for urgent and commercial projects are assessed immediately upon submission (proposal submission). The highly qualified KNMFi staff will guide users through the relevant processes and techniques to address their processing goals and characterization needs. KNMFi encourages the early discussion of planned projects and scientific goals and is open for long-term collaborations.

About Us

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Digitalization and Information Management

The Laboratory for Simulation and Data Management is the newest part of KNMFi. Here, activities in terms of digitalization, data handling and information management are bundled. The lab will bridge multiscale structuring and manufacturing technologies and multiscale characterization techniques by gathering the process data and information of each method, shape them into a generally usable format, and then make them available in a defined dataset for further research. Two major focuses are set in the lab: 

  1. COMPLAT / Chemotion
    ComPlat offers users a combination of different services based on software and databases. In the past, software solutions and concepts were developed to support experimental research groups in the field of data management. This work is used to build up an infrastructure to realise new data flow concepts and documentation or analysis processes. For KNMFi users, services are offered which, on the basis of the established solution Chemotion, allow the mapping of new research aspects. This will enable the integration of additional data types and documentation needs into a digital workflow. The offered solutions aim to support users in particular in their efforts to generate FAIR data that meet the requirements of research data management standards and fosters further analysis and re-use of the data. ComPlat will complement existing systems and develop new software and concepts according to user requirements. In particular, the focus will be on extensions to support data transfer, storage, annotation and management by electronic laboratory journals.
     
  2. KaDi4Mat
    Without suitable modelling, simulation and analysis methods, the constantly growing request for information on materials behavior as well as the amounts of data from simulations and experiments will no longer be recordable. An important aspect is to be able to perform modelling and simulation in an efficient and rapid way. Here, the massive parallel solver Pace3D is used for materials research. To perform the corresponding data analysis smoothly, a structured storage of research data and related metadata is essential. In addition to uniform data storage, such systems can overcome inter-institutional hurdles, generate specific models, compare theoretical and experimental data and offer reproducible workflows for data analysis. Furthermore, linking data with persistent identifiers enables other researchers to reference them in their work.
    Kadi4Mat, the Karlsruhe Data Infrastructure for Materials Science, is a software to tackle the challenges mentioned, by combining new concepts with established technologies and existing solutions.
    Read more ...

The lab technology is to major parts based on hardware and software provided by the Steinbuch Centre for Computing (SCC), which is the center for information technology at KIT. SCC deals with innovative methods in supercomputing, big data and safe information technologies for research and applications. Additionally, large scale IT research projects are provided as well as the centralized IT management for KIT. SCC will contribute by developing and providing metadata expertise and services:

  • Metastore is a metadata repository with integrated quality assessments for the optimized metadata management of large amounts of metadata documents. It plays an important role for the metadata management in different national and European projects, such as the Helmholtz Metadata Collaboration Platform (HMC), the NFFA-Europe Pilot (NEP) and the Integrated Model and Data Driven Material Characterization program (MDMC).
  • The FAIR Digital Object Concept draws on an ecosystem of internationally coordinated information services based on the Research Data Alliance (RDA) and the EOSC Interoperability Framework of the European Commission, allowing the deep exploration of heterogeneous and distributed data collections.
  • The development of human- and machine-actionable vocabularies and taxonomies (ontology) will allow to build-up a metadata repository optimized for correlative characterization. By the integration of digital tools, SCC will support researchers in enriching their data with metadata, data curation, and data analysis.

Steering Committee

  • Prof. Dr.-Ing. Jürgen Brandner, Head of KNMF
    responsible for the overall strategic direction
  • Dr. Christian Kübel, Deputy Head of KNMF
    responsible for the management of the KNMF Laboratory for Microscopy and Spectroscopy
  • Dr. Nicole Jung
    responsible for the management of the KNMF Laboratory for Simulation and Data Management
  • Dr. Dieter Maas
    responsible for the management of the KNMF Laboratory for Micro- and Nanostructuring
  • Dr. Susan Anson
    responsible for the integration of KNMF within the Helmholtz Association and with external research infrastructures
  • Thomas Schaller
    User Office
    The KNMF User Office will help you answer your questions. Please contact us for information about technologies and services, and when you are experiencing any problem with the user facility.

Publications


2022
  1. Protein spot arrays on graphene oxide coatings for efficient single-cell capture
    Kumar, R.; Llewellyn, S.; Vasantham, S. K.; Nie, K.; Sekula-Neuner, S.; Vijayaraghavan, A.; Hirtz, M.
    2022. Scientific Reports, 12 (1), Art.-Nr.: 3895. doi:10.1038/s41598-022-06225-4Full textFull text of the publication as PDF document
  2. On the formation of nanocrystalline aluminides during high pressure torsion of Al/Ni alternating foils and post-processing multilayer reaction
    Ivanisenko, Y.; Mazilkin, A.; Gallino, I.; Riegler, S. S.; Doyle, S.; Kilmametov, A.; Fabrichnaya, O.; Heilmaier, M.
    2022. Journal of alloys and compounds, 905, Art. Nr.: 164201. doi:10.1016/j.jallcom.2022.164201
  3. Microstructural Study of MgB2 in the LiBH4-MgH2 Composite by Using TEM
    Jin, O.; Shang, Y.; Huang, X.; Mu, X.; Szabó, D. V.; Le, T. T.; Wagner, S.; Kübel, C.; Pistidda, C.; Pundt, A.
    2022. Nanomaterials, 12 (11), 1893. doi:10.3390/nano12111893Full textFull text of the publication as PDF document
  4. Investigation on the mechanical interface stability of curved high aspect ratio x-ray gratings made by deep x-ray lithography
    Richter, M.; Beckenbach, T.; Daerr, H.; Prevrhal, S.; Börner, M.; Gutekunst, J.; Zangi, P.; Last, A.; Korvink, J. G.; Meyer, P.
    2022. Journal of Micro/Nanopatterning, Materials, and Metrology, 21 (02). doi:10.1117/1.JMM.21.2.024901
  5. Single-exposure X-ray phase imaging microscopy with a grating interferometer
    Wolf, A.; Akstaller, B.; Cipiccia, S.; Flenner, S.; Hagemann, J.; Ludwig, V.; Meyer, P.; Schropp, A.; Schuster, M.; Seifert, M.; et al.
    2022. Journal of Synchrotron Radiation, 29 (3). doi:10.1107/S160057752200193XFull textFull text of the publication as PDF document
  6. On the complex intermetallics in an Al-Mn-Sc based alloy produced by laser powder bed fusion
    Bayoumy, D.; Boll, T.; Schliephake, D.; Wu, X.; Zhu, Y.; Huang, A.
    2022. Journal of alloys and compounds, 901, Art.Nr.: 163571. doi:10.1016/j.jallcom.2021.163571
  7. Single step synthesis of W-modified LiNiO using an ammonium tungstate flux
    Goonetilleke, D.; Mazilkin, A.; Weber, D.; Ma, Y.; Fauth, F.; Janek, J.; Brezesinski, T.; Bianchini, M.
    2022. Journal of Materials Chemistry A, 10 (14), 7841–7855. doi:10.1039/d1ta10568j
  8. Dealloying-induced phase transformation in Fe–Rh alloys
    Ye, X.; Geßwein, H.; Wang, D.; Kilmametov, A.; Hahn, H.; Kruk, R.
    2022. Applied Physics Letters, 120 (14), Art.Nr. 141904. doi:10.1063/5.0088048
  9. Nanomaterials by severe plastic deformation: review of historical developments and recent advances
    Edalati, K.; Bachmaier, A.; Beloshenko, V. A.; Beygelzimer, Y.; Blank, V. D.; Botta, W. J.; Bryła, K.; Čížek, J.; Divinski, S.; Enikeev, N. A.; et al.
    2022. Materials Research Letters, 10 (4), 163–256. doi:10.1080/21663831.2022.2029779Full textFull text of the publication as PDF document
  10. Integration of Biofunctional Molecules into 3D-Printed Polymeric Micro-/Nanostructures
    Berganza, E.; Apte, G.; Vasantham, S. K.; Nguyen, T.-H.; Hirtz, M.
    2022. Polymers, 14 (7), Article no: 1327. doi:10.3390/polym14071327Full textFull text of the publication as PDF document
  11. Fast Tool Machining and Hot embossing for the manufacture of diffractive structured surfaces
    Boinski, A.-K.; Riemer, O.; Karpuschewski, B.; Schneider, M.; Guttmann, M.; Worgull, M.
    2022. Precision engineering, 7 (4), 12–19. doi:10.1016/j.precisioneng.2021.10.002
  12. Origin of non-uniform plasticity in a high-strength Al-Mn-Sc based alloy produced by laser powder bed fusion
    Bayoumy, D.; Kwak, K.; Boll, T.; Dietrich, S.; Schliephake, D.; Huang, J.; Yi, J.; Takashima, K.; Wu, X.; Zhu, Y.; et al.
    2022. Journal of materials science & technology, 103, 121–133. doi:10.1016/j.jmst.2021.06.042
  13. Inverted Hartmann mask made by deep X-ray lithography for single-shot multi-contrast X-ray imaging with laboratory setup
    Mikhaylov, A.; Vlnieska, V.; Khanda, A.; Bremer, S.; Zuber, M.; Henrique Pezzin, S.; Kunka, D.
    2022. Optics Express, 30 (6), 8494. doi:10.1364/OE.452114Full textFull text of the publication as PDF document
  14. Multi‐Element Surface Coating of Layered Ni‐Rich Oxide Cathode Materials and Their Long‐Term Cycling Performance in Lithium‐Ion Batteries
    Dreyer, S. L.; Kretschmer, K. R.; Tripković, Đ.; Mazilkin, A.; Chukwu, R.; Azmi, R.; Hartmann, P.; Bianchini, M.; Brezesinski, T.; Janek, J.
    2022. Advanced materials interfaces, 9 (8), Art. Nr.: 2101100. doi:10.1002/admi.202101100Full textFull text of the publication as PDF document
  15. Chemical characterization of Mg0.25Mn0.75-H(D) nanocomposites by Atom Probe Tomography (APT)
    Gemma, R.; Lu, Y.; Seils, S.; Boll, T.; Asano, K.
    2022. Journal of alloys and compounds, 896, Article no: 163015. doi:10.1016/j.jallcom.2021.163015
  16. High-Entropy Sulfides as Electrode Materials for Li-Ion Batteries
    Lin, L.; Wang, K.; Sarkar, A.; Njel, C.; Karkera, G.; Wang, Q.; Azmi, R.; Fichtner, M.; Hahn, H.; Schweidler, S.; et al.
    2022. Advanced Energy Materials, 12 (8), Art.-Nr. 2103090. doi:10.1002/aenm.202103090Full textFull text of the publication as PDF document
  17. Dark-field computed tomography reaches the human scale
    Viermetz, M.; Gustschin, N.; Schmid, C.; Haeusele, J.; Teuffenbach, M. von; Meyer, P.; Bergner, F.; Lasser, T.; Proksa, R.; Koehler, T.; et al.
    2022. Proceedings of the National Academy of Sciences of the United States of America, 119 (8), e2118799119. doi:10.1073/pnas.2118799119Full textFull text of the publication as PDF document
  18. Elucidation of dross formation in laser powder bed fusion at down-facing surfaces : Phenomenon-oriented multiphysics simulation and experimental validation
    Charles, A.; Bayat, M.; Elkaseer, A.; Thijs, L.; Hattel, J. H.; Scholz, S.
    2022. Additive manufacturing, 50, Article no: 102551. doi:10.1016/j.addma.2021.102551Full textFull text of the publication as PDF document
  19. Mechanical behavior at elevated temperatures of an Al–Mn–Mg–Sc–Zr alloy manufactured by selective laser melting
    Schliephake, D.; Bayoumy, D.; Seils, S.; Schulz, C.; Kauffmann, A.; Wu, X.; Huang, A. J.
    2022. Materials science and engineering / A, 831, Art.-Nr.: 142032. doi:10.1016/j.msea.2021.142032
  20. Activated Porous Carbon Supported Pd and ZnO Nanocatalysts for Trace Sensing of Carbaryl Pesticide in Water and Food Products
    Jemai, R.; Djebbi, M. A.; Hussain, N.; Yang, B.; Hirtz, M.; Trouillet, V.; Ben Rhaiem, H.; Ben Haj Amara, A.
    2022. New Journal of Chemistry. doi:10.1039/D2NJ01844F
  21. FluidFM-Based Fabrication of Nanopatterns: Promising Surfaces for Platelet Storage Application
    Apte, G.; Hirtz, M.; Nguyen, T.-H.
    2022. ACS Applied Materials & Interfaces. doi:10.1021/acsami.2c03459
  22. Tempering of an additively manufactured microsegregated hot-work tool steel: A high-temperature synchrotron X-ray diffraction study
    Fonseca, E. B.; Escobar, J. D.; Gabriel, A. H. G.; Ribamar, G. G.; Boll, T.; Lopes, É. S. N.
    2022. Additive Manufacturing, 55, Art.Nr. 102812. doi:10.1016/j.addma.2022.102812
  23. Multiplexed Covalent Patterns on Double‐Reactive Porous Coating
    Das, S.; Kumar, R.; Yang, B.; Bag, S.; Sauter, E.; Hussain, N.; Hirtz, M.; Manna, U.
    2022. Chemistry – An Asian Journal. doi:10.1002/asia.202200157Full textFull text of the publication as PDF document
  24. Evaluation of Dibenzocyclooctyne and Bicyclononyne Click Reaction on Azido‐Functionalized Antifouling Polymer Brushes via Microspotting
    Yang, B.; Wang, Y.; Vorobii, M.; Sauter, E.; Koenig, M.; Kumar, R.; Rodriguez-Emmenegger, C.; Hirtz, M.
    2022. Advanced Materials Interfaces, 9 (16), Art.-Nr.: 2102325. doi:10.1002/admi.202102325Full textFull text of the publication as PDF document
  25. A Quasi‐Multinary Composite Coating on a Nickel‐Rich NCM Cathode Material for All‐Solid‐State Batteries
    Kitsche, D.; Strauss, F.; Tang, Y.; Bartnick, N.; Kim, A.-Y.; Ma, Y.; Kübel, C.; Janek, J.; Brezesinski, T.
    2022. Batteries and Supercaps. doi:10.1002/batt.202100397
  26. Nanohybrid biosensor based on mussel-inspired electro-cross-linking of tannic acid capped gold nanoparticles and enzymes
    Savin, R.; Benzaamia, N.-O.; Njel, C.; Pronkin, S.; Blanck, C.; Schmutz, M.; Boulmedais, F.
    2022. Materials Advances, 3 (4), 2222–2233. doi:10.1039/d1ma01193fFull textFull text of the publication as PDF document
  27. Advanced Nanoparticle Coatings for Stabilizing Layered Ni‐Rich Oxide Cathodes in Solid‐State Batteries
    Ma, Y.; Teo, J. H.; Walther, F.; Ma, Y.; Zhang, R.; Mazilkin, A.; Tang, Y.; Goonetilleke, D.; Janek, J.; Bianchini, M.; et al.
    2022. Advanced Functional Materials, Art.-Nr.: 2111829. doi:10.1002/adfm.202111829Full textFull text of the publication as PDF document
  28. Microstructure and magnetic properties evolution of Al/CoCrFeNi nanocrystalline high-entropy alloy composite
    Wang, J.-J.; Kou, Z.-D.; Fu, S.; Wu, S.-S.; Liu, S.-N.; Yan, M.-Y.; Wang, D.; Lan, S.; Hahn, H.; Feng, T.
    2022. Rare Metals. doi:10.1007/s12598-021-01931-w
  29. Sorption of Fulvic Acids onto Titanium Dioxide Nanoparticles Extracted from Commercial Sunscreens: ToF-SIMS and High-Dimensional Data Analysis
    Tayyebi Sabet Khomami, N.; Welle, A.; Kunz, S.; Philippe, A.
    2022. Coatings, 12 (3), Article no: 335. doi:10.3390/coatings12030335Full textFull text of the publication as PDF document
  30. Creating a Ferromagnetic Ground State with Tc Above Room Temperature in a Paramagnetic Alloy through Non-Equilibrium Nanostructuring
    Ye, X.; Fortunato, N.; Sarkar, A.; Geßwein, H.; Wang, D.; Chen, X.; Eggert, B.; Wende, H.; Brand, R. A.; Zhang, H.; et al.
    2022. Advanced Materials, Art.-Nr.: 2108793. doi:10.1002/adma.202108793Full textFull text of the publication as PDF document
  31. Design Strategy for Nanostructured Arrays of Metallodielectric Cuboids to Systematically Tune the Optical Response and Eliminate Spurious Bulk Effects in Plasmonic Biosensors
    Grab, A. L.; Bacher, A.; Nesterov-Mueller, A.; Dahint, R.
    2022. Bioengineering, 9 (2), 63. doi:10.3390/bioengineering9020063Full textFull text of the publication as PDF document
  32. Digitization in Catalysis Research: Towards a Holistic Description of a Ni/Al2O3 Reference Catalyst for CO2 Methanation
    Weber, S.; Zimmermann, R. T.; Bremer, J.; Abel, K. L.; Poppitz, D.; Prinz, N.; Ilsemann, J.; Wendholt, S.; Yang, Q.; Pashminehazar, R.; et al.
    2022. ChemCatChem. doi:10.1002/cctc.202101878
  33. Surface Noble Metal Concentration on Ceria as a Key Descriptor for Efficient Catalytic CO Oxidation
    Maurer, F.; Beck, A.; Jelic, J.; Wang, W.; Mangold, S.; Stehle, M.; Wang, D.; Dolcet, P.; Gänzler, A. M.; Kübel, C.; et al.
    2022. ACS catalysis, 12, 2473–2486. doi:10.1021/acscatal.1c04565
  34. Ultrahard BCC-AlCoCrFeNi bulk nanocrystalline high-entropy alloy formed by nanoscale diffusion-induced phase transition
    Wang, J.; Kou, Z.; Fu, S.; Wu, S.; Liu, S.; Yan, M.; Ren, Z.; Wang, D.; You, Z.; Lan, S.; et al.
    2022. Journal of Materials Science and Technology, 115, 29–39. doi:10.1016/j.jmst.2021.11.025
  35. Direct Observation of Strong Anomalous Hall Effect and Proximity-induced Ferromagnetic State in SrIrO₃
    Jaiswal, A. K.; Wang, D.; Wollersen, V.; Schneider, R.; Le Tacon, M.; Fuchs, D.
    2022. Advanced materials, 34 (14), Article no: 2109163. doi:10.1002/adma.202109163Full textFull text of the publication as PDF document
  36. In Situ Generated Shear Bands in Metallic Glass Investigated by Atomic Force and Analytical Transmission Electron Microscopy
    Rösner, H.; Kübel, C.; Ostendorp, S.; Wilde, G.
    2022. Metals, 12 (1), 111. doi:10.3390/met12010111Full textFull text of the publication as PDF document
  37. Features Detection-Based Computer Vision of Transparent 3D Inkjet Printed Parts
    Elkaseer, A.; Scholz, A.; Scholz, S. G.
    2022. Proceedings of the Future Technologies Conference (FTC) 2021, Volume 2. Ed.: K. Arai, 218–231, Springer International Publishing 
  38. Structure and magnetic properties of Fe-Co alloy nanoparticles synthesized by pulsed-laser inert gas condensation
    Patelli, N.; Cugini, F.; Wang, D.; Sanna, S.; Solzi, M.; Hahn, H.; Pasquini, L.
    2022. Journal of alloys and compounds, 890, 161863. doi:10.1016/j.jallcom.2021.161863
  39. Sustainable Design and Manufacturing – Proceedings of the 8th International Conference on Sustainable Design and Manufacturing (KES-SDM 2021)
    Scholz, S. G.; Howlett, R. J.; Setchi, R. (Eds.)
    2022. Springer Singapur. doi:10.1007/978-981-16-6128-0
2021
  1. Nano- and Microstructured Copper/Copper Oxide Composites on Laser-Induced Carbon for Enzyme-Free Glucose Sensors
    Mamleyev, E. R.; Weidler, P. G.; Nefedov, A.; Szabó, D. V.; Islam, M.; Mager, D.; Korvink, J. G.
    2021. ACS applied nano materials, 4 (12), 13747–13760. doi:10.1021/acsanm.1c03149Full textFull text of the publication as PDF document
  2. Electrochemical Stability of Platinum Nanoparticles Supported on N-Doped Hydrothermal Carbon Aerogels as Electrocatalysts for the Oxygen Reduction Reaction
    Martin, J.; Melke, J.; Njel, C.; Schökel, A.; Büttner, J.; Fischer, A.
    2021. ChemElectroChem, 8 (24), 4835–4847. doi:10.1002/celc.202101162
  3. On the Origin of Reversible and Irreversible Reactions in LiNiCoMnO
    Kleiner, K.; Murray, C. A.; Grosu, C.; Ying, B.; Winter, M.; Nagel, P.; Schuppler, S.; Merz, M.
    2021. Journal of the Electrochemical Society, 168 (12), Art.Nr. 120533. doi:10.1149/1945-7111/ac3c21Full textFull text of the publication as PDF document
  4. Reversible and Irreversible Redox Processes in Li-Rich Layered Oxides
    Merz, M.; Ying, B.; Nagel, P.; Schuppler, S.; Kleiner, K.
    2021. Chemistry of materials, 33 (24), 9534–9545. doi:10.1021/acs.chemmater.1c02573
  5. Retrieval of 3D information in X-ray dark-field imaging with a large field of view
    Andrejewski, J.; De Marco, F.; Willer, K.; Noichl, W.; Urban, T.; Frank, M.; Gustschin, A.; Meyer, P.; Koehler, T.; Pfeiffer, F.; et al.
    2021. Scientific reports, 11, ArtNr.: 23504. doi:10.1038/s41598-021-02960-2Full textFull text of the publication as PDF document
  6. Experimental validation of a modeling framework for upconversion enhancement in 1D-photonic crystals
    Hofmann, C. L. M.; Fischer, S.; Eriksen, E. H.; Bläsi, B.; Reitz, C.; Yazicioglu, D.; Howard, I. A.; Richards, B. S.; Goldschmidt, J. C.
    2021. Nature Communications, 12 (1), Aricle no: 104. doi:10.1038/s41467-020-20305-xFull textFull text of the publication as PDF document
  7. Interface Pattern Engineering in Core-Shell Upconverting Nanocrystals: Shedding Light on Critical Parameters and Consequences for the Photoluminescence Properties
    Hudry, D.; De Backer, A.; Popescu, R.; Busko, D.; Howard, I. A.; Bals, S.; Zhang, Y.; Pedrazo-Tardajos, A.; Van Aert, S.; Gerthsen, D.; et al.
    2021. Small, 17 (47), Art.-Nr. 2104441. doi:10.1002/smll.202104441Full textFull text of the publication as PDF document
  8. Grain boundary segregation induced precipitation in a non equiatomic nanocrystalline CoCuFeMnNi compositionally complex alloy
    Mantha, L. S.; MacDonald, B. E.; Mu, X.; Mazilkin, A.; Ivanisenko, J.; Hahn, H.; Lavernia, E. J.; Katnagallu, S.; Kübel, C.
    2021. Acta materialia, 220, Art.Nr.: 117281. doi:10.1016/j.actamat.2021.117281
  9. Instability of a molybdenum layer under deformation of a CuMoCu laminate by high-pressure torsion
    Tavakkoli, V.; Mazilkin, A.; Scherer, T.; Mail, M.; Beygelzimer, Y.; Baretzky, B.; Estrin, Y.; Kulagin, R.
    2021. Materials letters, 302, Art.-Nr.: 130378. doi:10.1016/j.matlet.2021.130378
  10. Visualizing Intrinsic 3D‐Strain Distribution in Gold Coated ZnO Microstructures by Bragg Coherent X‐Ray Diffraction Imaging and Transmission Electron Microscopy with Respect to Piezotronic Applications
    Jordt, P.; Wolff, N.; Hrkac, S. B.; Shree, S.; Wang, D.; Harder, R. J.; Kübel, C.; Adelung, R.; Shpyrko, O. G.; Magnussen, O. M.; et al.
    2021. Advanced electronic materials, 7 (11), Art.-Nr.: 2100546. doi:10.1002/aelm.202100546Full textFull text of the publication as PDF document
  11. In operando study of orthorhombic V₂O₅ as positive electrode materials for K-ion batteries
    Fu, Q.; Sarapulova, A.; Zhu, L.; Melinte, G.; Missyul, A.; Welter, E.; Luo, X.; Knapp, M.; Ehrenberg, H.; Dsoke, S.
    2021. Journal of Energy Chemistry, 62, 627–636. doi:10.1016/j.jechem.2021.04.027Full textFull text of the publication as PDF document
  12. Single-Shot Multicontrast X-ray Imaging for In Situ Visualization of Chemical Reaction Products
    Zakharova, M.; Mikhaylov, A.; Vlnieska, V.; Kunka, D.
    2021. Journal of imaging, 7 (11), Art.-Nr. 221. doi:10.3390/jimaging7110221Full textFull text of the publication as PDF document
  13. Versatile Heteroleptic Cu(I) Complexes Based on Quino(xa)-line-Triazole Ligands: from Visible-Light Absorption and Cooperativity to Luminescence and Photoredox Catalysis
    Bruschi, C.; Gui, X.; Salaeh-arae, N.; Barchi, T.; Fuhr, O.; Lebedkin, S.; Klopper, W.; Bizzarri, C.
    2021. European Journal of Inorganic Chemistry, 2021 (39), 4074–4084. doi:10.1002/ejic.202100653Full textFull text of the publication as PDF document
  14. Toward Better Stability and Reversibility of the Mn/MnDouble Redox Activity in Disordered Rocksalt Oxyfluoride Cathode Materials
    Shirazi Moghadam, Y.; El Kharbachi, A.; Diemant, T.; Melinte, G.; Hu, Y.; Fichtner, M.
    2021. Chemistry of Materials, 33 (21), 8235−8247. doi:10.1021/acs.chemmater.1c02334Full textFull text of the publication as PDF document
  15. Enhancement of Methanol Synthesis by Oxidative Fluorination of Cu/ZnO Catalysts : Insights from Surface Analyses
    Fehr, S. M.; Nguyen, K.; Njel, C.; Krossing, I.
    2021. ACS Catalysis, 11, 13223–13235. doi:10.1021/acscatal.1c03735
  16. Disclosing the Role of Gold on Palladium – Gold Alloyed Supported Catalysts in Formic Acid Decomposition
    Barlocco, I.; Capelli, S.; Lu, X.; Bellomi, S.; Huang, X.; Wang, D.; Prati, L.; Dimitratos, N.; Roldan, A.; Villa, A.
    2021. ChemCatChem, 13 (19), 4210–4222. doi:10.1002/cctc.202100886
  17. Fabrication of x-ray absorption gratings via deep x-ray lithography using a conventional x-ray tube
    Pinzek, S.; Beckenbach, T.; Viermetz, M.; Meyer, P.; Gustschin, A.; Andrejewski, J.; Gustschin, N.; Herzen, J.; Schulz, J.; Pfeiffer, F.
    2021. Journal of micro/nanopatterning, materials, and metrology, 20 (04), Article no: 043801. doi:10.1117/1.JMM.20.4.043801
  18. Dosimetry on First Clinical Dark‐Field Chest Radiography
    Frank, M.; Urban, T.; Willer, K.; Noichl, W.; De Marco, F.; Schick, R.; Gleich, B.; Schegerer, A.; Lechel, U.; Meyer, P.; et al.
    2021. Medical physics, 48 (10), 6152–6159. doi:10.1002/mp.15132
  19. Microstructure and mechanical properties of high-Mn-ODS steels
    Seils, S.; Kauffmann, A.; Delis, W.; Boll, T.; Heilmaier, M.
    2021. Materials science and engineering / A, 825, Art.-Nr. 141859. doi:10.1016/j.msea.2021.141859
  20. Construction of New Active Sites: Cu Substitution Enabled Surface Frustrated Lewis Pairs over Calcium Hydroxyapatite for CO Hydrogenation
    Guo, J.; Liang, Y.; Song, R.; Loh, J. Y. Y.; Kherani, N. P.; Wang, W.; Kübel, C.; Dai, Y.; Wang, L.; Ozin, G. A.
    2021. Advanced science, 8 (17), Art.Nr. 2101382. doi:10.1002/advs.202101382Full textFull text of the publication as PDF document
  21. New Insight into Desodiation/Sodiation Mechanism of MoS: Sodium Insertion in Amorphous Mo-S Clusters
    Wang, K.; Hua, W.; Li, Z.; Wang, Q.; Kübel, C.; Mu, X.
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  100. Noise Reduction for Single-Shot Grating-Based Phase-Contrast Imaging at an X-ray Backlighter
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2020
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  2. Solution Combustion-Mechanochemical Syntheses of Composites and Core-Shell xLiMnO·(1 - x)LiNiMnCoO(0 ≤ x ≤ 0.7) Cathode Materials for Lithium-Ion Batteries
    Ehi-Eromosele, C. O.; Indris, S.; Melinte, G.; Bergfeldt, T.; Ehrenberg, H.
    2020. ACS sustainable chemistry & engineering, 8 (50), 18590–18605. doi:10.1021/acssuschemeng.0c06804
  3. Li₂ZrO₃-Coated NCM622 for Application in Inorganic Solid-State Batteries: Role of Surface Carbonates in the Cycling Performance
    Strauss, F.; Teo, J. H.; Maibach, J.; Kim, A.-Y.; Mazilkin, A.; Janek, J.; Brezesinski, T.
    2020. ACS applied materials & interfaces, 12 (51), 57146–57154. doi:10.1021/acsami.0c18590Full textFull text of the publication as PDF document
  4. Designing Structurally Ordered Pt/Sn Nanoparticles in Ionic Liquids and their Enhanced Catalytic Performance
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