Englisch

Lindner, Nils ; Mejia-Wille, Andres ; Fritschen, Anna ; Blaeser, Andreas (2024)
Development of a robotic-assisted handling and manipulation system for the high-scale bioproduction of 3D-bioprinted organ-on-a-chip devices.
In: HardwareX, 19
doi: 10.1016/j.ohx.2024.e00572
Artikel, Bibliographie

Fritschen, Anna ; Lindner, Nils ; Scholpp, Sebastian ; Richthof, Philipp ; Dietz, Jonas ; Linke, Philipp ; Guttenberg, Zeno ; Blaeser, Andreas (2024)
High-scale 3D-bioprinting platform for the automated production of vascularized organs-on-a-chip.
In: Advanced Healthcare Materials, 13 (17)
doi: 10.1002/adhm.202304028
Artikel, Bibliographie

Lindner, Nils ; Blaeser, Andreas (2022)
Scalable Biofabrication: A Perspective on the Current State and Future Potentials of Process Automation in 3D-Bioprinting Applications.
In: Frontiers in Bioengineering and Biotechnology, 10
doi: 10.3389/fbioe.2022.855042
Artikel, Bibliographie

Brumm, Pauline ; Weber, Tim Eike ; Lindner, Nils ; Sauer, Hans Martin ; Doersam, Edgar (2021)
Collection of digitized gravure printed samples for the analysis of hydrodynamic pattern formation.
doi: 10.48328/tudatalib-528.2
Anderes, Bibliographie

Brumm, Pauline ; Lindner, Nils ; Weber, Tim Eike ; Sauer, Hans Martin ; Dörsam, Edgar (2021)
A deep learning approach for the classification task of gravure printed patterns.
doi: 10.14622/Advances_47_2021
Konferenzveröffentlichung, Bibliographie