@article{59846,
author = {{Mildorf, Jarmila}},
issn = {{0039-4130}},
journal = {{Studium Ricerca, Letteratura}},
number = {{1}},
pages = {{134--160}},
title = {{{The Voice of the Bard: Milton’s Paradise Lost on Radio}}},
volume = {{121}},
year = {{2025}},
}
@article{59847,
abstract = {{Abstract
The surface-assisted assembly of DNA origami lattices is a potent method for creating molecular lithography masks. Lattice quality and assembly kinetics are controlled by various environmental parameters, including the employed surface, the assembly temperature, and the ionic composition of the buffer, with optimized parameter combinations resulting in highly ordered lattices that can span surface areas of several cm2. Established assembly protocols, however, employ assembly times ranging from hours to days. Here, the assembly of highly ordered hexagonal DNA origami lattices at mica surfaces is observed within few minutes using high-speed atomic force microscopy (HS-AFM). A moderate increase in the DNA origami concentration enables this rapid assembly. While forming a regular lattice takes 10 min at a DNA origami concentration of 4 nM, this time is shortened to about 2 min at a concentration of 6 nM. Increasing the DNA origami concentration any further does not result in shorter assembly times, presumably because DNA origami arrival at the mica surface is diffusion-limited. Over short length scales up to 1 µm, lattice order is independent of the DNA origami concentration. However, at larger length scales of a few microns, a DNA origami concentration of 10 nM yields slightly better order than lower and higher concentrations. Therefore, 10 nM can be considered the optimum concentration for the rapid assembly of highly ordered DNA origami lattices. These results thus represent an important step toward the industrial-scale application of DNA origami-based lithography masks.}},
author = {{Pothineni, Bhanu Kiran and Barner, Jörg and Grundmeier, Guido and Contreras, David and Castro, Mario and Keller, Adrian}},
issn = {{2731-9229}},
journal = {{Discover Nano}},
number = {{1}},
publisher = {{Springer Science and Business Media LLC}},
title = {{{Rapid assembly of highly ordered DNA origami lattices at mica surfaces}}},
doi = {{10.1186/s11671-025-04254-2}},
volume = {{20}},
year = {{2025}},
}
@inbook{53445,
author = {{Hälterlein, Jens}},
booktitle = {{The Realities of Autonomous Weapons}},
editor = {{Bächle, Thomas Christian and Bareis, Jascha}},
pages = {{187--204}},
publisher = {{Bristol University Press}},
title = {{{Governing Autonomies: Imagining Responsible Artificial Intelligence in the “Future Combat Air System” European Armament Project}}},
year = {{2025}},
}
@inbook{59867,
author = {{Dübbert, Alexander}},
booktitle = {{Transdisziplinäre Räume in den Kulturwissenschaften}},
editor = {{Kornbach, Alina and Lammer, Christina and Magdeburg, Lena}},
pages = {{403--429}},
publisher = {{Herder}},
title = {{{Muster in der Benamung 'nachhaltiger' Lebensmittelmarkennamen - Kulturbezogene Deutungen von Namen am stationären Verkaufsort als Raum}}},
volume = {{3}},
year = {{2025}},
}
@book{59862,
editor = {{Kornbach, Alina and Lammer, Christina and Magdeburg, Lena Maria}},
publisher = {{Herder Verlag}},
title = {{{Transdisziplinäre Räume in den Kulturwissenschaften}}},
volume = {{3}},
year = {{2025}},
}
@inproceedings{59876,
abstract = {{Abstract. Clinching is a conventional mechanical joining process used in Multi-Material Design in the automotive sector. To receive the desired geometrical characteristics in clinch joints, correct process design is required. To reduce the cost of finding fitting process parameters, numerical simulation of the joining process can be used to predict the geometrical characteristics, such as interlock, instead of an experimental approach. These numerical simulation models consume computational resources and time. In this paper machine learning is used to find correlations between features of the joining process and geometrical characteristics in the joint. This serves the purpose of predicting the joint’s target values more resource-efficiently. Modelling with machine learning requires a structured dataset with sufficient parameter variation. To create this data base the following procedure was used. For joining partners, a HC340LA steel alloy with 2 mm material thickness was used punch-sided and an EN AW 5182 aluminum alloy with 1.5 mm thickness was used die-sided. For this combination a suitable tool combination and punch distance was experimentally identified. A finite element model was created to reproduce the joining process. For the modelling of the material of both joining partners flow curves determined by Vallaster et al. were used [1]. The punch and die were recreated digitally by opto-electronic measurements and transformed into a mesh suitable for numerical simulation. The model was validated by comparing process values like the maximum force applied by the punch and geometrical values in the joints cross section. Additionally, a process window for suitable punch distances was experimentally determined. Afterwards a variation of 70 different process designs was conducted with variants inside and outside the process window. The results were used for training, testing and validating various machine learning models. All models competed against each other to find the must suited model to predict every geometric value. To ensure good model performances and prevent the model from overfitting, a tenfold cross validation was used for validating the models. Analysis of the results gives the following key findings: i) Good predictability is reached for the interlock and sheet thickness of the joint. ii) Prediction neck thickness showed low error values, but also low correlation. iii)The prediction of those key values for evaluating clinch joint characteristics by machine learning models positively impacts needed resources in comparison to numerical models.}},
author = {{Ludwig, Jean-Patrick and Tsi-Nda Lontsi, Seraphin and Neumann, Jonas and Kappis, Lukas and Scharr, Christian and Flügge, Wilko and Merklein, Marion and Meschut, Gerson}},
booktitle = {{Materials Research Proceedings}},
issn = {{2474-395X}},
publisher = {{Materials Research Forum LLC}},
title = {{{Data driven prognosis of clinch joints in multi-material design}}},
doi = {{10.21741/9781644903599-157}},
volume = {{54}},
year = {{2025}},
}
@inproceedings{59833,
author = {{Wüppelmann, Dennis and Yigitbas, Enes}},
booktitle = {{Proceedings of the 29th International Conference on Evaluation and Assessment in Software Engineering (EASE 2025)}},
publisher = {{ACM}},
title = {{{SecCityVR: Visualization and Collaborative Exploration of Software Vulnerabilities in Virtual Reality}}},
year = {{2025}},
}
@inproceedings{59879,
author = {{Wüppelmann, Dennis and Krings, Sarah Claudia and Yigitbas, Enes}},
booktitle = {{Proceedings of the 11th International Conference on Virtual Reality (ICVR 2025)}},
publisher = {{IEEE}},
title = {{{SMART-EAT: Towards Sustainable Nutrition Education and Decision Support using XR}}},
year = {{2025}},
}
@inbook{59905,
abstract = {{Um die international und national beschlossenen Klimaziele zu erreichen, müssen die verkehrsbedingten Emissionen in der Bundesrepublik Deutschland drastisch reduziert werden. Hierzu bedarf es einer umfassenden Mobilitätswende, welche die Etablierung emissionsärmerer und effizienterer Mobilitätsformen umfasst. Ein Lösungsansatz können on-demand Dienste bieten, die den öffentlichen Personennahverkehr bedarfsgerecht gestalten und so dessen Akzeptanz steigern. Zahlreiche bisher eingeführte on-demand Dienste mussten jedoch nach Beendigung des Projekt- bzw. Förderzeitraums wieder eingestellt werden. Maßgebliche Herausforderungen waren die Integration der Dienste in die bestehenden ÖPNV- und Mobilitäts-Strukturen sowie teilweise damit einhergehende ökonomische Aspekte. In diesem Beitrag wird eine Methode vorgestellt, welche neben der Einführung neuartiger Mobilitätsdienste auch die Entwicklung eines nachhaltigen Mobilitäts-Ökosystems anstrebt. Der Fokus liegt dabei auf ländlich geprägten Regionen und ihren besonderen Herausforderungen im Bereich des öffentlichen Nahverkehrs. Die Methode beschreibt ein fünf-phasiges Handlungsschema, in welchem Potenziale bestehender Strukturen genutzt, Mobilitäts-Stakeholder eingebunden und verhärtete Mobilitätsverhalten allmählich positiv verändert werden. Anhand der Initiative Neue Mobilität Paderborn wird aufgezeigt, dass mithilfe der Methode erste Schritte hin zu einem Mobilitäts-Ökosystem absolviert werden können. Darüber hinaus werden Einführungsszenarien für die neuartige, sich noch in der Entwicklung befindliche Mobilitätslösung NeMo.bil in einer Beispielregion erarbeitet.}},
author = {{Behm, Jonathan and Ostermann, Moritz and Bomm, Julian and Rahmann, Sören and Tröster, Thomas and Marten, Thorsten}},
booktitle = {{New Players in Mobility}},
isbn = {{9783658464844}},
location = {{Duisburg}},
publisher = {{Springer Fachmedien Wiesbaden}},
title = {{{Einführungsstrategien nachhaltiger on-demand Mobilitätkonzepte im öffentlichen Nahverkehr}}},
doi = {{10.1007/978-3-658-46485-1_36}},
year = {{2025}},
}
@article{59906,
abstract = {{The cationic molybdenum alkylidyne N-heterocyclic carbene (NHC) complex [Mo(C-p-OMeC6H4)(OCMe(CF3)2)2 (IMes)][B(ArF4] (IMes = 1,3-dimesitylimidazol-2-ylidene) was selectively immobilized inside the pores of ordered mesoporous silica (OMS) with pore diameters of 66, 56, and 28 Å and used in the ring-expansion metathesis polymerization (REMP) of cyclic olefins to yield cyclic polymers. A strong confinement effect was observed for cis-cyclooctene (cCOE), 1,5-cyclooctadiene (COD), (+)-2,3-endo,exo-dicarbomethoxynorborn-5-ene ((+)-DCMNBE), and 2-methyl-2-phenylcycloprop-1-ene (MPCP), allowing for the synthesis of low-molecular-weight cyclic polymers even at a high monomer concentration. The exclusive formation of cyclic polymers was demonstrated by matrix-assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry. Confinement also influences stereoselectivity, resulting in a pronounced increase in Z-selectivity and in an increased cis-syndiospecificity.}},
author = {{Probst, Patrick and Lindemann, Moritz and Bruckner, Johanna R. and Atwi, Boshra and Wang, Dongren and Fischer, Felix Richard and Högler, Marc and Bauer, Matthias and Hansen, Niels and Dyballa, Michael and Buchmeiser, Michael R.}},
issn = {{0002-7863}},
journal = {{Journal of the American Chemical Society}},
number = {{10}},
pages = {{8741--8750}},
publisher = {{American Chemical Society (ACS)}},
title = {{{Ring-Expansion Metathesis Polymerization under Confinement}}},
doi = {{10.1021/jacs.4c18171}},
volume = {{147}},
year = {{2025}},
}
@article{45291,
author = {{Cramer, Katja and Webersen, Yvonne}},
journal = {{MNU-Journal}},
pages = {{237--243}},
title = {{{"Heute wissen wir, wie das Universum aussieht!" ...oder? Eine digitale Lernumgebung zur Vorläufigkeit von naturwissenschaftlichem Wissen am Beispiel der Geschichte der Astronomie}}},
volume = {{3}},
year = {{2025}},
}
@article{59756,
abstract = {{A current concern in the field of Artificial Intelligence (AI) is to ensure the trustworthiness of AI systems. The development of explainability methods is one prominent way to address this, which has often resulted in the assumption that the use of explainability will lead to an increase in the trust of users and wider society. However, the dynamics between explainability and trust are not well established and empirical investigations of their relation remain mixed or inconclusive.
In this paper we provide a detailed description of the concepts of user trust and distrust in AI and their relation to appropriate reliance. For that we draw from the fields of machine learning, human–computer interaction, and the social sciences. Based on these insights, we have created a focused study of empirical literature of existing empirical studies that investigate the effects of AI systems and XAI methods on user (dis)trust, in order to substantiate our conceptualization of trust, distrust, and reliance. With respect to our conceptual understanding we identify gaps in existing empirical work. With clarifying the concepts and summarizing the empirical studies, we aim to provide researchers, who examine user trust in AI, with an improved starting point for developing user studies to measure and evaluate the user’s attitude towards and reliance on AI systems.}},
author = {{Visser, Roel and Peters, Tobias Martin and Scharlau, Ingrid and Hammer, Barbara}},
issn = {{1389-0417}},
journal = {{Cognitive Systems Research}},
keywords = {{XAI, Appropriate trust, Distrust, Reliance, Human-centric evaluation, Trustworthy AI}},
publisher = {{Elsevier BV}},
title = {{{Trust, distrust, and appropriate reliance in (X)AI: A conceptual clarification of user trust and survey of its empirical evaluation}}},
doi = {{10.1016/j.cogsys.2025.101357}},
year = {{2025}},
}
@inbook{59864,
author = {{Kornbach, Alina and Lammer, Christina and Magdeburg, Lena Maria}},
booktitle = {{Transdisziplinäre Räume in den Kulturwissenschaften}},
editor = {{Kornbach, Alina and Lammer, Christina and Magdeburg, Lena}},
pages = {{7--31}},
publisher = {{Herder Verlag}},
title = {{{Transdisziplinäre Räume in den Kulturwissenschaften}}},
volume = {{3}},
year = {{2025}},
}
@article{59842,
author = {{Kothe, Linda and Kloß, Marvin and Wagner, Tobias and Wengenroth, Marc and Poeplau, Michael and Ester, Stephan and Tiemann, Michael}},
issn = {{1932-7447}},
journal = {{The Journal of Physical Chemistry C}},
number = {{19}},
pages = {{9239--9245}},
publisher = {{American Chemical Society (ACS)}},
title = {{{Temperature Studies of Zinc Tin Oxide Photoluminescence for Optical O2 Sensing}}},
doi = {{10.1021/acs.jpcc.5c01678}},
volume = {{129}},
year = {{2025}},
}
@misc{59922,
author = {{Porwol, Philip and Scharlau, Ingrid}},
publisher = {{OSF}},
title = {{{An annotated corpus of elicited metaphors of explaining and understanding using MIPVU}}},
doi = {{10.17605/OSF.IO/Y6SMX}},
year = {{2025}},
}
@inbook{51748,
author = {{Schulz, Christian}},
booktitle = {{Populäre Artikulationen – Artikulationen des Populären}},
editor = {{Koch, Günter and Rottgeri , André }},
issn = {{2364-9224}},
pages = {{215--244}},
publisher = {{Schüren}},
title = {{{In Likes We Trust oder die unmögliche Möglichkeit vom Like als Gabe zu sprechen}}},
doi = {{https://doi.org/10.15475/skms.2025.1.11}},
year = {{2025}},
}
@inbook{59982,
author = {{Schroeder, René and Reh, Anne and Miller, Susanne and Blumberg, Eva and Kottmann, Brigitte and Franzen, Katja and Thevißen, Max}},
booktitle = {{Förderbezogene Diagnostik in der inklusiven Bildung. Band I: Kompetenzbereiche - Fachdidaktik}},
editor = {{Beck, Katja and Ferdigg, Rosa Anna and Katzenbach, Dieter and Kett-Hauser, Julia and Laux, Sophia and Urban, Michael}},
pages = {{209--229}},
publisher = {{Waxmann}},
title = {{{Didaktisch-diagnostische Potentiale des inklusionsorientierten Sachunterrichts (DiPoSa) – Einblicke in ein designbasiertes Entwicklungsprojekt}}},
year = {{2025}},
}
@inbook{51747,
author = {{de Gruisbourne, Birte and Schulz, Christian}},
booktitle = {{Audiovisual Healing and Reparation: Recuperative Affect of Mediation}},
editor = {{Çiçek, Özgür and Savaş, Özlem}},
pages = {{111--124}},
publisher = {{Routledge}},
title = {{{A Healing Media System of Care - Cancer Diaries and Social Media}}},
doi = {{https://doi.org/10.4324/9781032647425}},
year = {{2025}},
}
@article{59992,
abstract = {{The immobilization of DNA origami nanostructures on solid surfaces is an important prerequisite for their application in many biosensors. So far, DNA origami immobilization has been investigated in detail only...}},
author = {{Xu, Xiaodan and Golebiowska, Sandra Alicja and de los Arcos, Teresa and Grundmeier, Guido and Keller, Adrian}},
issn = {{2755-3701}},
journal = {{RSC Applied Interfaces}},
publisher = {{Royal Society of Chemistry (RSC)}},
title = {{{DNA origami adsorption at single-crystalline TiO2 surfaces}}},
doi = {{10.1039/d5lf00109a}},
year = {{2025}},
}
@inbook{59997,
author = {{Schlieper, Hendrik}},
booktitle = {{G. E. Lessings Hamburgische Dramaturgie. Zwischen ästhetischer Theorie und dramatischer Praxis}},
editor = {{Robert, Jörg and Steigerwald, Jörn}},
isbn = {{9783770569441}},
pages = {{185--205}},
publisher = {{Brill | Fink}},
title = {{{Der spanische Essex}}},
doi = {{10.30965/9783846769447_010}},
volume = {{12}},
year = {{2025}},
}