@article{32406,
abstract = {{The efficient loading of DNA nanostructures with intercalating or groove-binding drugs is an important prerequisite for various applications in drug delivery. However, unambiguous verification and quantification of successful drug loading...}},
author = {{Hanke, Marcel and Grundmeier, Guido and Keller, Adrian}},
issn = {{2040-3364}},
journal = {{Nanoscale}},
keywords = {{General Materials Science}},
pages = {{11552--11560}},
publisher = {{Royal Society of Chemistry (RSC)}},
title = {{{Direct visualization of the drug loading of single DNA origami nanostructures by AFM-IR nanospectroscopy}}},
doi = {{10.1039/d2nr02701a}},
volume = {{14}},
year = {{2022}},
}
@article{34086,
author = {{Bürger, Julius and Venugopal, Harikrishnan and Kool, Daniel and de los Arcos de Pedro, Maria Teresa and Gonzalez Orive, Alejandro and Grundmeier, Guido and Brassat, Katharina and Lindner, Jörg}},
issn = {{2196-7350}},
journal = {{Advanced Materials Interfaces}},
keywords = {{General Medicine}},
number = {{26}},
publisher = {{Wiley}},
title = {{{High‐Resolution Study of Changes in Morphology and Chemistry of Cylindrical PS‐ b ‐PMMA Block Copolymer Nanomasks during Mask Development}}},
doi = {{10.1002/admi.202200962}},
volume = {{9}},
year = {{2022}},
}
@article{32283,
author = {{Schmolke, Tobias and Meschut, Gerson and Rieker, Florian and Meinderink, Dennis and Grundmeier, Guido}},
journal = {{adhäsion KLEBEN & DICHTEN }},
pages = {{40--43}},
publisher = {{Springer Nature}},
title = {{{Untersuchung von Klebverbindungen für Batteriegehäuse}}},
doi = {{https://doi.org/10.1007/s35145-022-0596-9}},
volume = {{66}},
year = {{2022}},
}
@article{36874,
author = {{Su, Jiangling and González Orive, Alejandro and Grundmeier, Guido}},
issn = {{0169-4332}},
journal = {{Applied Surface Science}},
keywords = {{Surfaces, Coatings and Films, Condensed Matter Physics, Surfaces and Interfaces, General Physics and Astronomy, General Chemistry}},
publisher = {{Elsevier BV}},
title = {{{Nano-FTIR and chemical force analysis of electrografted aryldiazonium salts on ODT-microcontact printed Au-surfaces}}},
doi = {{10.1016/j.apsusc.2022.155355}},
volume = {{609}},
year = {{2022}},
}
@article{36872,
author = {{Bobzin, K. and Kalscheuer, C. and Grundmeier, Guido and de los Arcos, T. and Kollmann, S. and Carlet, M.}},
issn = {{0257-8972}},
journal = {{Surface and Coatings Technology}},
keywords = {{Materials Chemistry, Surfaces, Coatings and Films, Surfaces and Interfaces, Condensed Matter Physics, General Chemistry}},
publisher = {{Elsevier BV}},
title = {{{Oxidation stability of chromium aluminum oxynitride hard coatings}}},
doi = {{10.1016/j.surfcoat.2022.128927}},
volume = {{449}},
year = {{2022}},
}
@article{36873,
author = {{Neßlinger, Vanessa and Welzel, Stefan and Rieker, Florian and Meinderink, Dennis and Nieken, Ulrich and Grundmeier, Guido}},
issn = {{1862-832X}},
journal = {{Macromolecular Reaction Engineering}},
keywords = {{Polymers and Plastics, General Chemical Engineering, General Chemistry}},
publisher = {{Wiley}},
title = {{{Thin Organic‐Inorganic Anti‐Fouling Hybrid‐Films for Microreactor Components}}},
doi = {{10.1002/mren.202200043}},
year = {{2022}},
}
@article{36804,
author = {{Henksmeier, Tobias and Schulz, Johann Friedemann and Kluth, Elias and Feneberg, Martin and Goldhahn, Rüdiger and Sanchez, Ana M. and Voigt, Markus and Grundmeier, Guido and Reuter, Dirk}},
journal = {{Journal of Crystal Growth}},
publisher = {{Elsevier}},
title = {{{Remote epitaxy of In(x)Ga(1-x)As(001) on graphene covered GaAs(001) substrates}}},
doi = {{10.1016/j.jcrysgro.2022.126756}},
volume = {{593}},
year = {{2022}},
}
@inproceedings{32819,
author = {{Pfeifer, Florian and Tröster, Thomas and Marten, Thorsten and Dietrich, André and Nacke, Bernard and Grundmeier, Guido}},
booktitle = {{Proceedings of the 6th International Conference on Steels in Cars and Trucks}},
location = {{Mailand}},
title = {{{Investigation on hot sheet metal forming by means of a longitudinal flux inductor}}},
year = {{2022}},
}
@article{35974,
author = {{Xie, Xiaofan and de los Arcos de Pedro, Maria Teresa and Grundmeier, Guido}},
issn = {{1612-8850}},
journal = {{Plasma Processes and Polymers}},
keywords = {{Polymers and Plastics, Condensed Matter Physics}},
number = {{11}},
publisher = {{Wiley}},
title = {{{Comparative analysis of hexamethyldisiloxane and hexamethyldisilazane plasma polymer thin films before and after plasma oxidation}}},
doi = {{10.1002/ppap.202200052}},
volume = {{19}},
year = {{2022}},
}
@inproceedings{30153,
author = {{Schmolke, Tobias and Teutenberg, Dominik and Meschut, Gerson and Meinderink, Dennis and Golebiowska, Sandra and Rieker, Florian and Ebbert, Christoph and Grundmeier, Guido}},
location = {{Online}},
title = {{{Entwicklung einer Methode zur Bewertung einer stahlintensiven Mischbau-Klebverbindung eines Batteriegehäuses gegenüber mechanischer und medialer Belastung unter Berücksichtigung der Interphasenstruktur}}},
year = {{2022}},
}
@article{33691,
abstract = {{Near ambient pressure XPS in nitrogen atmosphere was utilized to investigate gas-solid interactions within porous SiO2 films ranging from 30 to 75 nm thickness. The films were differentiated in terms of porosity and roughness. The XPS N1s core levels of the N2 gas in presence of the SiO2 samples showed variations in width, binding energy and line shape. The width correlated with the surface charge induced in the dielectric films upon X-ray irradiation. The observed different binding energies observed for the N1s peak can only partly be associated with intrinsic work function differences between the samples, opening the possibility that the effect of physisorption at room temperature could be detected by a shift in the measured binding energy. However, the signals also show an increasing asymmetry with rising surface charge. This might be associated with the formation of vertical electrical gradients within the dielectric porous thin films, which complicates the assignment of binding energy positions to specific surface-related effects. With the support of Monte Carlo and first principles density functional theory calculations, the observed shifts were discussed in terms of the possible formation of transitory dipoles upon N2 physisorption within the porous SiO2 films.}},
author = {{de los Arcos, Teresa and Weinberger, Christian and Zysk, Frederik and Raj Damerla, Varun and Kollmann, Sabrina and Vieth, Pascal and Tiemann, Michael and Kühne, Thomas and Grundmeier, Guido}},
issn = {{0169-4332}},
journal = {{Applied Surface Science}},
keywords = {{Surfaces, Coatings and Films, Condensed Matter Physics, Surfaces and Interfaces, General Physics and Astronomy, General Chemistry}},
publisher = {{Elsevier BV}},
title = {{{Challenges in the interpretation of gas core levels for the determination of gas-solid interactions within dielectric porous films by ambient pressure XPS}}},
doi = {{10.1016/j.apsusc.2022.154525}},
volume = {{604}},
year = {{2022}},
}
@article{33724,
author = {{Vieth, Pascal and Borgert, Thomas and Homberg, Werner and Grundmeier, Guido}},
issn = {{1438-1656}},
journal = {{Advanced Engineering Materials}},
keywords = {{Condensed Matter Physics, General Materials Science}},
publisher = {{Wiley}},
title = {{{Assessment of mechanical and optical properties of Al 6060 alloy particles by removal of contaminants}}},
doi = {{10.1002/adem.202201081}},
year = {{2022}},
}
@book{44209,
author = {{Schmolke, Tobias and Meschut, Gerson and Vieth, Pascal and Meinderink, Dennis and Grundmeier, Guido}},
publisher = {{Forschungsvereinigung Stahlanwendung e. V.}},
title = {{{Entwicklung einer Methode zur Bewertung einer stahlintensiven Mischbau-Klebverbindung eines Batteriegehäuses gegenüber mechanischer und medialer Belastung unter Berücksichtigung der Interphasenstruktur }}},
year = {{2022}},
}
@article{34097,
author = {{Voswinkel, Dietrich and Striewe, Jan Andre and Grydin, Olexandr and Meinderink, Dennis and Grundmeier, Guido and Schaper, Mirko and Tröster, Thomas}},
issn = {{0924-3046}},
journal = {{Advanced Composite Materials}},
keywords = {{Mechanical Engineering, Mechanics of Materials, Ceramics and Composites}},
pages = {{1--16}},
publisher = {{Informa UK Limited}},
title = {{{Co-bonding of carbon fibre-reinforced epoxy and galvanised steel with laser structured interface for automotive applications}}},
doi = {{10.1080/09243046.2022.2143746}},
year = {{2022}},
}
@article{40154,
abstract = {{The development of bioresorbable materials for temporary implantation enables progress in medical technology. Iron (Fe)-based degradable materials are biocompatible and exhibit good mechanical properties, but their degradation rate is low. Aside from alloying with Manganese (Mn), the creation of phases with high electrochemical potential such as silver (Ag) phases to cause the anodic dissolution of FeMn is promising. However, to enable residue-free dissolution, the Ag needs to be modified. This concern is addressed, as FeMn modified with a degradable Ag-Calcium-Lanthanum (AgCaLa) alloy is investigated. The electrochemical properties and the degradation behavior are determined via a static immersion test. The local differences in electrochemical potential increase the degradation rate (low pH values), and the formation of gaps around the Ag phases (neutral pH values) demonstrates the benefit of the strategy. Nevertheless, the formation of corrosion-inhibiting layers avoids an increased degradation rate under a neutral pH value. The complete bioresorption of the material is possible since the phases of the degradable AgCaLa alloy dissolve after the FeMn matrix. Cell viability tests reveal biocompatibility, and the antibacterial activity of the degradation supernatant is observed. Thus, FeMn modified with degradable AgCaLa phases is promising as a bioresorbable material if corrosion-inhibiting layers can be diminished.}},
author = {{Krüger, Jan Tobias and Hoyer, Kay-Peter and Huang, Jingyuan and Filor, Viviane and Mateus-Vargas, Rafael Hernan and Oltmanns, Hilke and Meißner, Jessica and Grundmeier, Guido and Schaper, Mirko}},
issn = {{2079-4983}},
journal = {{Journal of Functional Biomaterials}},
keywords = {{Biomedical Engineering, Biomaterials}},
number = {{4}},
pages = {{185}},
publisher = {{MDPI AG}},
title = {{{FeMn with Phases of a Degradable Ag Alloy for Residue-Free and Adapted Bioresorbability}}},
doi = {{10.3390/jfb13040185}},
volume = {{13}},
year = {{2022}},
}
@article{33723,
abstract = {{The development of bioresorbable materials for temporary implantation enables progress in medical technology. Iron (Fe)-based degradable materials are biocompatible and exhibit good mechanical properties, but their degradation rate is low. Aside from alloying with Manganese (Mn), the creation of phases with high electrochemical potential such as silver (Ag) phases to cause the anodic dissolution of FeMn is promising. However, to enable residue-free dissolution, the Ag needs to be modified. This concern is addressed, as FeMn modified with a degradable Ag-Calcium-Lanthanum (AgCaLa) alloy is investigated. The electrochemical properties and the degradation behavior are determined via a static immersion test. The local differences in electrochemical potential increase the degradation rate (low pH values), and the formation of gaps around the Ag phases (neutral pH values) demonstrates the benefit of the strategy. Nevertheless, the formation of corrosion-inhibiting layers avoids an increased degradation rate under a neutral pH value. The complete bioresorption of the material is possible since the phases of the degradable AgCaLa alloy dissolve after the FeMn matrix. Cell viability tests reveal biocompatibility, and the antibacterial activity of the degradation supernatant is observed. Thus, FeMn modified with degradable AgCaLa phases is promising as a bioresorbable material if corrosion-inhibiting layers can be diminished.}},
author = {{Krüger, Jan Tobias and Hoyer, Kay-Peter and Huang, Jingyuan and Filor, Viviane and Mateus-Vargas, Rafael Hernan and Oltmanns, Hilke and Meißner, Jessica and Grundmeier, Guido and Schaper, Mirko}},
issn = {{2079-4983}},
journal = {{Journal of Functional Biomaterials}},
keywords = {{Biomedical Engineering, Biomaterials}},
number = {{4}},
publisher = {{MDPI AG}},
title = {{{FeMn with Phases of a Degradable Ag Alloy for Residue-Free and Adapted Bioresorbability}}},
doi = {{10.3390/jfb13040185}},
volume = {{13}},
year = {{2022}},
}
@article{34652,
author = {{Vieth, P. and Garthe, M.-A. and Voswinkel, Dietrich and Schaper, Mirko and Grundmeier, Guido}},
issn = {{0257-8972}},
journal = {{Surface and Coatings Technology}},
keywords = {{Materials Chemistry, Surfaces, Coatings and Films, Surfaces and Interfaces, Condensed Matter Physics, General Chemistry}},
publisher = {{Elsevier BV}},
title = {{{Enhancement of the delamination resistance of adhesive film coated surface laser melted aluminum 7075-T6 alloy by aminophosphonic acid adsorption}}},
doi = {{10.1016/j.surfcoat.2022.128835}},
volume = {{447}},
year = {{2022}},
}
@article{41494,
abstract = {{The development of bioresorbable materials for temporary implantation enables progress in medical technology. Iron (Fe)-based degradable materials are biocompatible and exhibit good mechanical properties, but their degradation rate is low. Aside from alloying with Manganese (Mn), the creation of phases with high electrochemical potential such as silver (Ag) phases to cause the anodic dissolution of FeMn is promising. However, to enable residue-free dissolution, the Ag needs to be modified. This concern is addressed, as FeMn modified with a degradable Ag-Calcium-Lanthanum (AgCaLa) alloy is investigated. The electrochemical properties and the degradation behavior are determined via a static immersion test. The local differences in electrochemical potential increase the degradation rate (low pH values), and the formation of gaps around the Ag phases (neutral pH values) demonstrates the benefit of the strategy. Nevertheless, the formation of corrosion-inhibiting layers avoids an increased degradation rate under a neutral pH value. The complete bioresorption of the material is possible since the phases of the degradable AgCaLa alloy dissolve after the FeMn matrix. Cell viability tests reveal biocompatibility, and the antibacterial activity of the degradation supernatant is observed. Thus, FeMn modified with degradable AgCaLa phases is promising as a bioresorbable material if corrosion-inhibiting layers can be diminished.}},
author = {{Krüger, Jan Tobias and Hoyer, Kay-Peter and Huang, Jingyuan and Filor, Viviane and Mateus-Vargas, Rafael Hernan and Oltmanns, Hilke and Meißner, Jessica and Grundmeier, Guido and Schaper, Mirko}},
issn = {{2079-4983}},
journal = {{Journal of Functional Biomaterials}},
keywords = {{Biomedical Engineering, Biomaterials}},
number = {{4}},
publisher = {{MDPI AG}},
title = {{{FeMn with Phases of a Degradable Ag Alloy for Residue-Free and Adapted Bioresorbability}}},
doi = {{10.3390/jfb13040185}},
volume = {{13}},
year = {{2022}},
}
@article{30103,
author = {{Huang, Jingyuan and Orive, Alejandro Gonzalez and Krüger, Jan Tobias and Hoyer, Kay-Peter and Keller, Adrian and Grundmeier, Guido}},
issn = {{0010-938X}},
journal = {{Corrosion Science}},
keywords = {{General Materials Science, General Chemical Engineering, General Chemistry}},
pages = {{110186}},
publisher = {{Elsevier BV}},
title = {{{Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes}}},
doi = {{10.1016/j.corsci.2022.110186}},
volume = {{200}},
year = {{2022}},
}
@article{41504,
author = {{Huang, Jingyuan and Gonzalez Orive, Alejandro and Krüger, Jan Tobias and Hoyer, Kay-Peter and Keller, Adrian and Grundmeier, Guido}},
issn = {{0010-938X}},
journal = {{Corrosion Science}},
keywords = {{General Materials Science, General Chemical Engineering, General Chemistry}},
publisher = {{Elsevier BV}},
title = {{{Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes}}},
doi = {{10.1016/j.corsci.2022.110186}},
volume = {{200}},
year = {{2022}},
}