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Alexander J. C. Kuehne
Researcher at University of Ulm
Publications - 110
Citations - 3081
Alexander J. C. Kuehne is an academic researcher from University of Ulm. The author has contributed to research in topics: Polymer & Chemistry. The author has an hindex of 28, co-authored 91 publications receiving 2216 citations. Previous affiliations of Alexander J. C. Kuehne include Harvard University & University of Strathclyde.
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Journal ArticleDOI
Organic Lasers: Recent Developments on Materials, Device Geometries, and Fabrication Techniques
TL;DR: A comprehensive review of the developments in the field over the past decade is provided, discussing recent advances in organic gain materials, which are today often based on solid-state organic semiconductors, as well as optical feedback structures, and device fabrication.
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Engineering biofunctional in vitro vessel models using a multilayer bioprinting technique
Jan Schöneberg,Federica De Lorenzi,Benjamin Theek,Andreas Blaeser,Dirk Rommel,Alexander J. C. Kuehne,Fabian Kießling,Horst Fischer +7 more
TL;DR: It can be concluded that the proposed novel bioprinting technique is suitable to achieve perfusable vessel models with a biofunctional multilayer wall composition that hold potential for the creation of more physiologically relevant in vitro disease models suitable especially as platforms for the pre-screening of drugs.
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Print your own membrane: direct rapid prototyping of polydimethylsiloxane
TL;DR: A new technique to directly print polydimethylsiloxane in a rapid prototyping device, circumventing the need for masks or sacrificial mold production is developed, enabling rapid production of novel chip geometries for a manifold of lab-on-a-chip applications.
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Bio-degradable highly fluorescent conjugated polymer nanoparticles for bio-medical imaging applications
Tatjana Repenko,Anne Rix,Simon Ludwanowski,Dennis Go,Fabian Kiessling,Wiltrud Lederle,Alexander J. C. Kuehne +6 more
TL;DR: This work presents fully conjugated polymer nanoparticles based on imidazole units that can be bio-degraded by activated macrophages and can be surface functionalized for directed targeting.
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High-Throughput Generation of Emulsions and Microgels in Parallelized Microfluidic Drop-Makers Prepared by Rapid Prototyping.
Tim Femmer,Tim Femmer,Alexander Jans,Rudi Eswein,Naveed Anwar,Martin Moeller,Matthias Wessling,Matthias Wessling,Alexander J. C. Kuehne +8 more
TL;DR: The potential of the additive manufacturing technique for microfluidics and the performance of the parallelized device is showcased by producing large amounts of microgels with a diameter of ca.