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. Judith Hohmann
    responsible for the management of the KNMF Laboratory for Micro- and Nanostructuring
  • Dr. Nicole Jung
    responsible for the management of the KNMF Laboratory for Simulation and Data Management
  • 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


2023
  1. Biosynthesis of ternary NiCoFeO nanoflowers: investigating their 3D structure and potential use in gene delivery
    Alijani, H. Q.; Khatami, M.; Torkzadeh-Mahani, M.; Michalička, J.; Wang, W.; Wang, D.; Heydari, A.
    2023. Journal of Biological Engineering, 17 (1), Art.-Nr.: 61. doi:10.1186/s13036-023-00381-5Full textFull text of the publication as PDF document
  2. SiOx coated graphite with inorganic aqueous binders as high-performance anode for lithium-ion batteries
    Trivedi, S.; Dinda, S.; Tang, Y.; Fuchs, S.; Pamidi, V.; Stein, H. S.; Munnangi, A. R.; Fichtner, M.
    2023. Journal of Energy Storage, 73 (C), Art.-Nr. 109210. doi:10.1016/j.est.2023.109210Full textFull text of the publication as PDF document
  3. CrN–NbN nanolayered coatings for enhanced accident tolerant fuels in BWR
    Fazi, A.; Sattari, M.; Strach, M.; Boll, T.; Stiller, K.; Andrén, H.-O.; Adorno Lopes, D.; Thuvander, M.
    2023. Journal of Nuclear Materials, 586, Art.-Nr.: 154681. doi:10.1016/j.jnucmat.2023.154681Full textFull text of the publication as PDF document
  4. Phase transformation pathways in a Ti-5.9Cu alloy modified with Fe and Al
    Klein, T.; Zhang, D.; Staufer, E.; Boll, T.; Schneider-Broeskamp, C.; Edtmaier, C.; Schmitz-Niederau, M.; Horky, J.; Qiu, D.; Easton, M.
    2023. Journal of Materials Research and Technology, 27, 4978–4985. doi:10.1016/j.jmrt.2023.11.014Full textFull text of the publication as PDF document
  5. Effect of Underlayer Quality on Microstructure, Stoichiometry, and Magnetic Properties of Hexaferrite BaFe₁₂O₁₉ Grown on YSZ(111) by Pulsed Laser Deposition
    Bauer, S.; Nergis, B.; Jin, X.; Schneider, R.; Wang, D.; Kübel, C.; Holy, V.; Horak, L.; Seemann, K.; Ulrich, S.; et al.
    2023. Langmuir, 39 (40), 14308–14327. doi:10.1021/acs.langmuir.3c01618
  6. Impact of high shear blending on distribution of magnesium stearate on lactose for Dry powder Inhaled formulations
    Welle, A.; Mehta, M.; Marek, K.; Peters, H.; van der Wel, P.; Imole, O.
    2023. International Journal of Pharmaceutics, Art.-Nr.: 123503. doi:10.1016/j.ijpharm.2023.123503
  7. X-ray nano-spectroscopy study of two solid oxide cells operated for long-term in steam electrolysis
    Léon, A.; Schlabach, S.; Villanova, J.
    2023. Journal of Power Sources, 581, Art.-Nr.: 233410. doi:10.1016/j.jpowsour.2023.233410
  8. Conformal LiHfO/HfO Nanoparticle Coatings on Layered Ni-Rich Oxide Cathodes for Stabilizing Interfaces in All-Solid-State Batteries
    Zhang, R.; Ma, Y.; Tang, Y.; Goonetilleke, D.; Diemant, T.; Janek, J.; Kondrakov, A.; Brezesinski, T.
    2023. Chemistry of Materials, 35 (17), 6835–6844. doi:10.1021/acs.chemmater.3c01116
  9. Unravelling densification during sintering by multiscale modelling of grain motion
    Seiz, M.; Hierl, H.; Nestler, B.
    2023. Journal of Materials Science, 58 (35), 14051–14071. doi:10.1007/s10853-023-08859-9Full textFull text of the publication as PDF document
  10. Solute misfit and solute interaction effects on strengthening: A case study in AuNi
    Yin, B.; Li, L.; Drescher, S.; Seils, S.; Nag, S.; Freudenberger, J.; Curtin, W. A.
    2023. Acta Materialia, 257, Art.-Nr.: 119118. doi:10.1016/j.actamat.2023.119118
  11. Laser structuring of high mass loaded and aqueous acid processed Li(Ni₀.₆Mn₀.₂Co₀.₂)O₂ cathodes for lithium-ion batteries
    Zhu, P.; Trouillet, V.; Heißler, S.; Pfleging, W.
    2023. Journal of Energy Storage, 66, 107401. doi:10.1016/j.est.2023.107401Full textFull text of the publication as PDF document
  12. Atomic Layer Deposition and Strain Analysis of Epitaxial GaN-ZnO Core–Shell Nanowires
    Kolhep, M.; Pantle, F.; Karlinger, M.; Wang, D.; Scherer, T.; Kübel, C.; Stutzmann, M.; Zacharias, M.
    2023. Nano Letters, 23 (15), 6920–6926. doi:10.1021/acs.nanolett.3c01531
  13. Multi‐Component PtFeCoNi Core‐Shell Nanoparticles on MWCNTs as Promising Bifunctional Catalyst for Oxygen Reduction and Oxygen Evolution Reactions
    Braun, T.; Dinda, S.; Karkera, G.; Melinte, G.; Diemant, T.; Kübel, C.; Fichtner, M.; Pammer, F.
    2023. ChemistrySelect, 8 (29), Art.-Nr.: e202300396. doi:10.1002/slct.202300396Full textFull text of the publication as PDF document
  14. Exploring the influence of FIB processing and SEM imaging on solid-state electrolytes
    Ding, Z.; Tang, Y.; Chakravadhanula, V. S. K.; Ma, Q.; Tietz, F.; Dai, Y.; Scherer, T.; Kübel, C.
    2023. Microscopy, 72 (4), 326–335. doi:10.1093/jmicro/dfac064Full textFull text of the publication as PDF document
  15. Direct Writing of Liquid Metal Microheaters for Microvalve Applications
    Hussain, N.; Scholz, A.; Spratte, T.; Selhuber-Unkel, C.; Hirtz, M.; Aghassi-Hagmann, J.
    2023. 2023 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS), 10220414, Institute of Electrical and Electronics Engineers (IEEE). doi:10.1109/FLEPS57599.2023.10220414
  16. A Barium Complex of the Silanide SiH : Hydride Surrogate and Source of Silicon
    Sun, X.; Hinz, A.
    2023. Inorganic Chemistry, 62 (26), 10249 – 10255. doi:10.1021/acs.inorgchem.3c01045
  17. Fano Interference in Microwave Resonator Measurements
    Rieger, D.; Günzler, S.; Spiecker, M.; Nambisan, A.; Wernsdorfer, W.; Pop, I. M.
    2023. Physical Review Applied, 20 (1), Art.-Nr.: 014059. doi:10.1103/PhysRevApplied.20.014059Full textFull text of the publication as PDF document
  18. Experimental investigation on the change of pull-off force between bulk particulate material and an elastic polymeric filter fiber
    Poggemann, L.; Thelen, R.; Meyer, J.; Dittler, A.
    2023. Journal of Colloid and Interface Science, 641, 903–915. doi:10.1016/j.jcis.2023.03.051
  19. Synthesis and characterization of dense, rare-earth based high entropy fluorite thin films
    Kante, M. V.; Hahn, H.; Bhattacharya, S. S.; Velasco, L.
    2023. Journal of Alloys and Compounds, 947, Art.-Nr. 169430. doi:10.1016/j.jallcom.2023.169430Full textFull text of the publication as PDF document
  20. Correction to “Tracking and Understanding Dynamics of Atoms and Clusters of Late Transition Metals with In-Situ DRIFT and XAS Spectroscopy Assisted by DFT”
    Sarma, B. B.; Jelic, J.; Neukum, D.; Doronkin, D. E.; Huang, X.; Bernart, S.; Studt, F.; Grunwaldt, J.-D.
    2023. The Journal of Physical Chemistry C, 127 (23), Art.-Nr.: 11419. doi:10.1021/acs.jpcc.3c03075
  21. Systematic Study of the Multiple Variables Involved in V₂AlC Acid-Based Etching Processes, a Key Step in MXene Synthesis
    Mendoza-Sánchez, B.; Samperio-Niembro, E.; Dolotko, O.; Bergfeldt, T.; Kübel, C.; Knapp, M.; Shuck, C. E.
    2023. ACS Applied Materials & Interfaces, 15 (23), 28332–28348. doi:10.1021/acsami.3c01671Full textFull text of the publication as PDF document
  22. Defect Location in Laterally Aligned Tin Oxide Nanowires: The Role of Growth Direction, Interface Dimensionality, and Catalyst
    Bürger, J.-C.; Gutsch, S.; Wollersen, V.; Wang, D.; Christian, B.; Fu, Z.; Ambacher, O.; Kübel, C.; Zacharias, M.
    2023. The Journal of Physical Chemistry C, 127 (22), 10871–10877. doi:10.1021/acs.jpcc.3c02405
  23. Observation of Narrow Optical Homogeneous Linewidth and Long Nuclear Spin Lifetimes in a Prototypical [Eu(trensal)] Complex
    Kuppusamy, S. K.; Vasilenko, E.; Li, W.; Hessenauer, J.; Ioannou, C.; Fuhr, O.; Hunger, D.; Ruben, M.
    2023. The Journal of Physical Chemistry C, 127 (22), 10670–10679. doi:10.1021/acs.jpcc.3c02903
  24. A Fully Inkjet-Printed Unipolar Metal Oxide Memristor for Nonvolatile Memory in Printed Electronics
    Hu, H.; Scholz, A.; Liu, Y.; Tang, Y.; Marques, G. C.; Aghassi-Hagmann, J.
    2023. IEEE Transactions on Electron Devices, 70 (6), 3051–3056. doi:10.1109/TED.2023.3269405Full textFull text of the publication as PDF document
  25. From valence fluctuations to long-range magnetic order in EuPd₂ ( Si₁₋ₓ Geₓ)₂ single crystals
    Peters, M.; Kliemt, K.; Ocker, M.; Wolf, B.; Puphal, P.; Le Tacon, M.; Merz, M.; Lang, M.; Krellner, C.
    2023. Physical Review Materials, 7 (6), 064405. doi:10.1103/PhysRevMaterials.7.064405
  26. Directly cast fibrous heterostructured FeNiCrAl high entropy alloy with low-cost and remarkable tensile properties
    Jiang, Z.; Chen, W.; Chu, C.; Chu, C.; Fu, Z.; Ivanisenko, J.; Wang, H.; Peng, S.; Lu, Y.; Lavernia, E. J.
    2023. Scripta Materialia, 230, Art.-Nr.: 115421. doi:10.1016/j.scriptamat.2023.115421
  27. An improved grand-potential phase-field model of solid-state sintering for many particles
    Seiz, M.; Hierl, H.; Nestler, B.
    2023. Modelling and Simulation in Materials Science and Engineering, 31 (5), Art.-Nr.: 055006. doi:10.1088/1361-651X/acd56dFull textFull text of the publication as PDF document
  28. Electrical Conductivity and Photodetection in 3D‐Printed Nanoporous Structures via Solution‐Processed Functional Materials
    Xia, K.; Dong, Z.; Sun, Q.; Debastiani, R.; Liu, S.; Jin, Q.; Li, Y.; Paetzold, U. W.; Gumbsch, P.; Lemmer, U.; et al.
    2023. Advanced Materials Technologies, Art.Nr.: 2300408. doi:10.1002/admt.202300408Full textFull text of the publication as PDF document
  29. Corrigendum to “Strain-induced twins and martensite: Effects on hydrogen embrittlement of selective laser melted (SLM) 316L stainless steel” [Corros. Sci. 208 (2022) 110669]
    Hong, Y.; Zhou, C.; Wagner, S.; Schlabach, S.; Pundt, A.; Zhang, L.; Zheng, J.
    2023. Corrosion Science, 215, Art.-Nr.: 111041. doi:10.1016/j.corsci.2023.111041
  30. Oil adsorbing and transporting surfaces: a simulative determination of parameters for bionic functional textiles
    Wagner, J.; Akdere, M.; Gürbüz, K.; Beek, L.; Klopp, K.; Ditsche, P.; Mail, M.; Gries, T.; Barthlott, W.
    2023. Bioinspiration and Biomimetics, 18 (3), Art.-Nr.: 036006. doi:10.1088/1748-3190/acc224
  31. Phase engineering in nanocrystalline high-entropy alloy composites to achieve strength-plasticity synergy
    Wang, J.; Zhao, N.; Yan, M.; Kou, Z.; Fu, S.; Wu, S.; Liu, S.; Lan, S.; You, Z.; Wang, D.; et al.
    2023. Scripta Materialia, 229, Art.-Nr.: 115374. doi:10.1016/j.scriptamat.2023.115374
  32. Temporal sequence of deformation twinning in CoCrNi under tribological load
    Dollmann, A.; Rau, J. S.; Bieber, B.; Mantha, L.; Kübel, C.; Kauffmann, A.; Tirunilai, A. S.; Heilmaier, M.; Greiner, C.
    2023. Scripta Materialia, 229, Art.-Nr.: 115378. doi:10.1016/j.scriptamat.2023.115378
  33. The influence of Sb doping on the local structure and disorder in thermoelectric ZnO:Sb thin films
    Ribeiro, J. M.; Rodrigues, F. J.; Correia, F. C.; Pudza, I.; Kuzmin, A.; Kalinko, A.; Welter, E.; Barradas, N. P.; Alves, E.; LaGrow, A. P.; et al.
    2023. Journal of Alloys and Compounds, 939, Artkl.Nr.: 168751. doi:10.1016/j.jallcom.2023.168751Full textFull text of the publication as PDF document
  34. The Impact of Carbon Nanotube Length and Diameter on their Global Alignment by Dead‐End Filtration
    Rust, C.; Shapturenka, P.; Spari, M.; Jin, Q.; Li, H.; Bacher, A.; Guttmann, M.; Zheng, M.; Adel, T.; Walker, A. R. H.; et al.
    2023. Small, 19 (10), 1–13. doi:10.1002/smll.202206774Full textFull text of the publication as PDF document
  35. A New Class of Cluster–Matrix Nanocomposite Made of Fully Miscible Components
    Iankevich, G.; Sarkar, A.; Katnagallu, S.; Chellali, M. R.; Wang, D.; Velasco, L.; Singh, R.; Reisinger, T.; Kruk, R.; Hahn, H.
    2023. Advanced Materials, 35 (9), Art.Nr. 2208774. doi:10.1002/adma.202208774Full textFull text of the publication as PDF document
  36. Tuning the mechanical and thermal properties of (MgNiCoCuZn)O by intelligent control of cooling rates
    Nallathambi, V.; Bhaskar, L. K.; Wang, D.; Naberezhnov, A. A.; Sumnikov, S. V.; Ionescu, E.; Kumar, R.
    2023. Journal of the European Ceramic Society, 43 (10), 4517–4529. doi:10.1016/j.jeurceramsoc.2023.03.016
  37. Disentangling Lattice and Electronic Instabilities in the Excitonic Insulator Candidate Ta 2 NiSe 5 by Nonequilibrium Spectroscopy
    Katsumi, K.; Alekhin, A.; Souliou, S.-M.; Merz, M.; Haghighirad, A.-A.; Le Tacon, M.; Houver, S.; Cazayous, M.; Sacuto, A.; Gallais, Y.
    2023. Physical Review Letters, 130 (10), 106904. doi:10.1103/PhysRevLett.130.106904Full textFull text of the publication as PDF document
  38. Lamellar-structured low-cost FeMnNiCrAl high entropy alloy with excellent tensile properties
    Jiang, Z.; Chen, W.; Chu, C.; Fu, Z.; Lu, Y.; Ivanisenko, Y.
    2023. Vacuum, 209, Art.-Nr.: 111767. doi:10.1016/j.vacuum.2022.111767
  39. Additively manufactured equiatomic CoCrFeMnNi high entropy alloy: Precipitation-induced heterogeneity by mechano-chemical coupling
    Taheriniya, S.; Choi, N.; Yang, S.; Sonkusare, R.; Yu, J. H.; Lee, J.-S.; Rösner, H.; Peterlechner, M.; Boll, T.; Gammer, C.; et al.
    2023. Journal of Alloys and Compounds, 938, Article no: 168514. doi:10.1016/j.jallcom.2022.168514
  40. Effect of interference laser treatment on the surface region homogeneity of a biomedical β -Ti alloy
    Kuczyńska-Zemła, D.; Kwaśniak, P.; Sotniczuk, A.; Boll, T.; Chassaing, D.; Bazarnik, P.; Wieciński, P.; Pisarek, M.; Ostrowski, R.; Garbacz, H.
    2023. Applied Surface Science, 614, Art.-Nr.: : 156211. doi:10.1016/j.apsusc.2022.156211Full textFull text of the publication as PDF document
  41. Activation of 2D MoS₂ electrodes induced by high-rate lithiation processes
    Liu, T.; Melinte, G.; Dolotko, O.; Knapp, M.; Mendoza-Sánchez, B.
    2023. Journal of Energy Chemistry, 78, Art.Nr. 56–70. doi:10.1016/j.jechem.2022.11.007Full textFull text of the publication as PDF document
  42. Reactivity of Pt(0) bromosilylene complexes towards ethylene
    Hädinger, P.; Hinz, A.
    2023. Dalton transactions (Cambridge, England : 2003), 52 (8), 2214–2218. doi:10.1039/D3DT00170AFull textFull text of the publication as PDF document
  43. Impact of catalyst support morphology on 3D electrode structure and polymer electrolyte membrane fuel cell performance
    Benedikt, P.; Stoeckel, D.; Scherer, T.; Kuebel, C.; Roth, C.; Melke, J.
    2023. Electrochemical Science Advances, 3 (2), Art.Nr. e2100121. doi:10.1002/elsa.202100121Full textFull text of the publication as PDF document
  44. 3D micro-structures for rarefied gas flow applications manufactured via two-photon-polymerization
    Zhang, D.; López-Quesada, G.; Bergdolt, S.; Hengsbach, S.; Bade, K.; Colin, S.; Rojas-Cárdenas, M.
    2023. Vacuum, 111915. doi:10.1016/j.vacuum.2023.111915
  45. Monitoring the Formation of Nickel-Poor and Nickel-Rich Oxide Cathode Materials for Lithium-Ion Batteries with Synchrotron Radiation
    Ying, B.; Fitzpatrick, J. R.; Teng, Z.; Chen, T.; Lo, T. W. B.; Siozios, V.; Murray, C. A.; Brand, H. E. A.; Day, S.; Tang, C. C.; et al.
    2023. Chemistry of Materials, 35 (4), 1514–1526. doi:10.1021/acs.chemmater.2c02639
  46. Low-Temperature Ion Exchange Synthesis of Layered LiNiO 2 Single Crystals with High Ordering
    Karger, L.; Weber, D.; Goonetilleke, D.; Mazilkin, A.; Li, H.; Zhang, R.; Ma, Y.; Indris, S.; Kondrakov, A.; Janek, J.; et al.
    2023. Chemistry of Materials, 35 (2), 648–657. doi:10.1021/acs.chemmater.2c03203
  47. High Entropy Approach to Engineer Strongly Correlated Functionalities in Manganites
    Sarkar, A.; Wang, D.; Kante, M. V.; Eiselt, L.; Trouillet, V.; Iankevich, G.; Zhao, Z.; Bhattacharya, S. S.; Hahn, H.; Kruk, R.
    2023. Advanced Materials, 35 (2), Art.-Nr.: 2207436. doi:10.1002/adma.202207436Full textFull text of the publication as PDF document
  48. Effects of Hydrothermal Treatment on Mesopore Structure and Connectivity in Doped Ceria-Zirconia Mixed Oxides
    Prates da Costa, E.; Huang, X.; Kübel, C.; Cheng, X.; Schladitz, K.; Hofmann, A.; Göbel, U.; Smarsly, B. M.
    2023. Langmuir, 39 (1), 177–191. doi:10.1021/acs.langmuir.2c02366
  49. Microplastic contamination of soil: Are input pathways by compost overridden by littering?
    Braun, M.; Mail, M.; Krupp, A. E.; Amelung, W.
    2023. Science of The Total Environment, 855, Art.Nr. 158889. doi:10.1016/j.scitotenv.2022.158889
  50. A Facile Approach for 4D Microprinting of Multi‐Photoresponsive Actuators
    Hsu, L.-Y.; Mainik, P.; Münchinger, A.; Lindenthal, S.; Spratte, T.; Welle, A.; Zaumseil, J.; Selhuber-Unkel, C.; Wegener, M.; Blasco, E.
    2023. Advanced Materials Technologies, 8 (1), Art.Nr.: 2200801. doi:10.1002/admt.202200801Full textFull text of the publication as PDF document
  51. Anion Storage Chemistry of Organic Cathodes for High‐Energy and High‐Power Density Divalent Metal Batteries
    Xiu, Y.; Mauri, A.; Dinda, S.; Pramudya, Y.; Ding, Z.; Diemant, T.; Sarkar, A.; Wang, L.; Li, Z.; Wenzel, W.; et al.
    2023. Angewandte Chemie International Edition, 62 (2), Art.: e202212339. doi:10.1002/anie.202212339Full textFull text of the publication as PDF document
  52. Nanoscale Confinement of Dip‐Pen Nanolithography Written Phospholipid Structures on CuZr Nanoglasses
    Vasantham, S. K.; Boltynjuk, E.; Nandam, S. H.; Berganza Eguiarte, E.; Fuchs, H.; Hahn, H.; Hirtz, M.
    2023. Advanced Materials Interfaces, 2300721. doi:10.1002/admi.202300721Full textFull text of the publication as PDF document
  53. Integrating Micro Process Chemistry into an NMR Spectrometer
    Schulte-Hermann, J.; Yang, J.; Hurtado Rivera, A. C.; Korvink, J. G.; MacKinnon, N.; Brandner, J. J.
    2023. Chemie Ingenieur Technik. doi:10.1002/cite.202300103Full textFull text of the publication as PDF document
  54. Oxidation Behavior and Outward Diffusion of Al Along Oxide Grain Boundaries of FeCrAl Alloys Overdoped with Zr and Hf
    Daradkeh, S. I.; Recalde, O.; Mousa, M. S.; Sobola, D.; Boll, T.
    2023. High Temperature Corrosion of Materials. doi:10.1007/s11085-023-10204-zFull textFull text of the publication as PDF document
  55. An Expanded Model for the Pressure Effect in Metal Dusting of Mn-Containing Alloy 600 Based on Advanced Scale Characterization
    Galetz, M. C.; Schlereth, C.; White, E. M. H.; Boll, T.; Bik, M.; Sitarz, M.; Chen, W.-T.; Gleeson, B.
    2023. High Temperature Corrosion of Materials. doi:10.1007/s11085-023-10201-2Full textFull text of the publication as PDF document
  56. Fully Printed Electrolyte‐Gated Transistor Formed in a 3D Polymer Reservoir with Laser Printed Drain/Source Electrodes
    Cadilha Marques, G.; Yang, L.; Liu, Y.; Wollersen, V.; Scherer, T.; Breitung, B.; Wegener, M.; Aghassi-Hagmann, J.
    2023. Advanced Materials Technologies, Art.-Nr.: 2300893. doi:10.1002/admt.202300893Full textFull text of the publication as PDF document
  57. Challenging Prevalent Solid Electrolyte Interphase (SEI) Models: An Atom Probe Tomography Study on a Commercial Graphite Electrode
    Pantenburg, I.; Cronau, M.; Boll, T.; Duncker, A.; Roling, B.
    2023. ACS Nano. doi:10.1021/acsnano.3c06560
  58. Softening by spinodal decomposition in Au–Cu–Ni–Pd–Pt high-entropy alloys
    Drescher, S.; Seils, S.; Pohl, D.; Rellinghaus, B.; Kauffmann, A.; Heilmaier, M.; Freudenberger, J.
    2023. Materials Science and Engineering: A, 887, Art.-Nr.: 145772. doi:10.1016/j.msea.2023.145772
  59. Critical Discussion of Ex situ and In situ TEM Measurements on Memristive Devices
    Gronenberg, O.; Haberfehlner, G.; Zahari, F.; Marquardt, R.; Kübel, C.; Kothleitner, G.; Kienle, L.
    2023. Bioinspired Information Pathways. Hrsg.: M. Ziegler, 129–157, Springer International Publishing. doi:10.1007/978-3-031-36705-2Full textFull text of the publication as PDF document
  60. Addressing the Sluggish Kinetics of Sulfur Redox for High‐Energy Mg–S Batteries
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2022
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