J
Jörg Peter Kutter
Researcher at University of Copenhagen
Publications - 185
Citations - 7746
Jörg Peter Kutter is an academic researcher from University of Copenhagen. The author has contributed to research in topics: Capillary electrophoresis & Microfluidics. The author has an hindex of 47, co-authored 181 publications receiving 7179 citations. Previous affiliations of Jörg Peter Kutter include Oak Ridge National Laboratory & University of Ulm.
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Journal ArticleDOI
Measurements of scattered light on a microchip flow cytometer with integrated polymer based optical elements
Zhenyu Wang,Jamil El-Ali,Mads Engelund,T. Gotsæd,Ivan R. Perch-Nielsen,Klaus Bo Mogensen,Detlef Snakenborg,Jörg Peter Kutter,Anders Wolff +8 more
TL;DR: An innovative microsystem is reported, in which several different optical elements are integrated with microfluidic channels to form a complete microchip flow cytometer, for the first time forward scattered light and incident light extinction were measured in a microsystem using integrated optics.
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Integration of polymer waveguides for optical detection in microfabricated chemical analysis systems.
TL;DR: Multimode polymer waveguides and fiber-to-waveguide couplers have been integrated with microfluidic channels by use of a single-mask-step procedure, which ensured self-alignment between the optics and the fluidics and allowed a fabrication and packaging time of only one day.
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BioXTAS RAW, a software program for high‐throughput automated small‐angle X‐ray scattering data reduction and preliminary analysis
Soren S. Nielsen,K. Noergaard Toft,Detlef Snakenborg,Mads G. Jeppesen,Jes Kristian Jacobsen,Bente Vestergaard,Jörg Peter Kutter,Lise Arleth +7 more
TL;DR: BioXTAS RAW provides preliminary analysis of one-dimensional data in terms of the indirect Fourier transform using the objective Bayesian approach to obtain the pair-distance distribution function, PDDF, and is thereby a free and open-source alternative to existing PDDF estimation software.
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Recent advances in lab-on-a-chip for biosensing applications
TL;DR: In the context of this review, sensor designs are often fairly advanced, whereas the lab-on-a-chip aspect is still rather simplistic in many cases, albeit already offering significant improvements to existing methods.
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Microstructure fabrication with a CO2 laser system
TL;DR: In this article, the authors investigated the use of a commercial CO2 laser system for fabrication of microfluidic systems in polymers and presented a straightforward model for the channel depth of microchannels dependent on the fabrication parameters.