Throughput enhancement of parallel step emulsifier devices by shear-free and efficient nozzle clearanceElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc01037k (Englisch)
- Neue Suche nach: Stolovicki, Elad
- Neue Suche nach: Stolovicki, Elad
- Neue Suche nach: Ziblat, Roy
- Neue Suche nach: Weitz, David A
In:
LAB on a chip
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18
, 1
; 132-138
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2017
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ISSN:
- Aufsatz (Zeitschrift) / Print
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Titel:Throughput enhancement of parallel step emulsifier devices by shear-free and efficient nozzle clearanceElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc01037k
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Beteiligte:
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Erschienen in:LAB on a chip ; 18, 1 ; 132-138
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Verlag:
- Neue Suche nach: Royal Society of Chemistry
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Erscheinungsort:Cambridge
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Erscheinungsdatum:2017
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ISSN:
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ZDBID:
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DOI:
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Medientyp:Aufsatz (Zeitschrift)
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Format:Print
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Sprache:Englisch
- Neue Suche nach: 35.06 / 35.07 / 35.06 / 35.07
- Weitere Informationen zu Basisklassifikation
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Klassifikation:
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Datenquelle:
Inhaltsverzeichnis – Band 18, Ausgabe 1
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- 1
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Front cover| 2017
- 2
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Inside front cover| 2017
- 3
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Contents list| 2017
- 9
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Lab on a Chip in 2017| 2017
- 11
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Isotachophoresis applied to biomolecular reactionsEid, C. / Santiago, J. G. et al. | 2017
- 16
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Cancer immunotherapy μ-environment LabChip: taking advantage of optoelectronic tweezersElectronic supplementary information (ESI) available: Video S1 shows the demonstration of TiOPc-based OET for precise manipulation of single micro-beads in a cancer immunotherapy μ-environment LabChip. Video S2 shows the diffusion in time series for PEG-DA hydrogel FLCS microwells. See DOI: 10.1039/c7lc00963aKe, Ling-Yi et al. | 2017
- 19
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Fluorescence-activated droplet sorting of lipolytic microorganisms using a compact optical systemElectronic supplementary information (ESI) available: Additional figures and details on materials and methods. See DOI: 10.1039/c7lc00993cQiao, Yuxin et al. | 2017
- 27
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Micro free flow electrophoresisJohnson, Alexander C. / Bowser, Michael T. et al. | 2017
- 207
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Back cover| 2017
- 41
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Controllable synthesis of nanocrystals in droplet reactorsPan, Liang-Jun / Tu, Jia-Wei / Ma, Hao-Tian / Yang, Yu-Jun / Tian, Zhi-Quan / Pang, Dai-Wen / Zhang, Zhi-Ling et al. | 2017
- 57
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Applications and developments of on-chip biochemical sensors based on optofluidic photonic crystal cavitiesZhang, Ya-nan / Zhao, Yong / Zhou, Tianmin / Wu, Qilu et al. | 2017
- 75
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Towards lab-on-a-chip diagnostics for malaria eliminationKolluri, N. / Klapperich, C. M. / Cabodi, M. et al. | 2017
- 95
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A compartmentalized microfluidic chip with crisscross microgrooves and electrophysiological electrodes for modeling the blood–retinal barrierYeste, Jose / García-Ramírez, Marta / Illa, Xavi / Guimerà, Anton / Hernández, Cristina / Simó, Rafael / Villa, Rosa et al. | 2017
- 106
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Cancer immunotherapy μ-environment LabChip: taking advantage of optoelectronic tweezersKe, Ling-Yi / Kuo, Zong-Keng / Chen, Yu-Shih / Yeh, Tsu-Yi / Dong, Minxiang / Tseng, Hsiang-Wen / Liu, Cheng-Hsien et al. | 2017
- 115
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A multi-throughput multi-organ-on-a-chip system on a plate formatted pneumatic pressure-driven medium circulation platformElectronic supplementary information (ESI) available: The layout of the pneumatic pressure lines for the pneumatic pressure-driven multi-throughput multi-organ-on-a-plate system (Fig. S1), membrane inserts for barrier-type organs (Fig. S2), the schematic of the structure and function of a "Laplace valve" (Fig. S3), metabolic pathways of capecitabine and tegafur (Fig. S4), composite images from overhead views of culture wells for the characterization of the mixing process (Fig. S5), enlarged images of Fig. 4b and 5b (Fig. S6 and S7), degradation and absorption of drugs on PDMS microfluidic plates (Fig. S8), and a list of primers used in the RT-PCR (Table S1) are available. See DOI: 10.1039/c7lc00952fSatoh, T et al. | 2017
- 115
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A multi-throughput multi-organ-on-a-chip system on a plate formatted pneumatic pressure-driven medium circulation platformSatoh, T. / Sugiura, S. / Shin, K. / Onuki-Nagasaki, R. / Ishida, S. / Kikuchi, K. / Kakiki, M. / Kanamori, T. et al. | 2017
- 126
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Full-angle tomographic phase microscopy of flowing quasi-spherical cellsElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc00943gVillone, Massimiliano M et al. | 2017
- 126
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Full-angle tomographic phase microscopy of flowing quasi-spherical cellsVillone, Massimiliano M. / Memmolo, Pasquale / Merola, Francesco / Mugnano, Martina / Miccio, Lisa / Maffettone, Pier Luca / Ferraro, Pietro et al. | 2017
- 132
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Throughput enhancement of parallel step emulsifier devices by shear-free and efficient nozzle clearanceElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc01037kStolovicki, Elad et al. | 2017
- 132
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Throughput enhancement of parallel step emulsifier devices by shear-free and efficient nozzle clearanceStolovicki, Elad / Ziblat, Roy / Weitz, David A. et al. | 2017
- 139
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Subnanometer structure and function from ion beams through complex fluidics to fluorescent particlesLiao, Kuo-Tang / Schumacher, Joshua / Lezec, Henri J. / Stavis, Samuel M. et al. | 2017
- 139
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Subnanometer structure and function from ion beams through complex fluidics to fluorescent particlesElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc01047hLiao, Kuo-Tang et al. | 2017
- 153
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Rapid spheroid clearing on a microfluidic chipSilva Santisteban, Toma / Rabajania, Omid / Kalinina, Iana / Robinson, Stephen / Meier, Matthia et al. | 2017
- 153
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Rapid spheroid clearing on a microfluidic chipElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc01114hSilva Santisteban, Tomas et al. | 2017
- 162
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On-chip label-free protein analysis with downstream electrodes for direct removal of electrolysis productsSaar, Kadi L. / Zhang, Yingbo / Müller, Thoma / Kumar, Challa P. / Devenish, Sean / Lynn, Andrew / Łapińska, Urszula / Yang, Xiaoting / Linse, Sara / Knowles, Tuomas P. J. et al. | 2017
- 171
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Cyclic olefin copolymer as an X-ray compatible material for microfluidic devicesElectronic supplementary information (ESI) available: Extended version of Fig. 1, details on device fabrication, channel cross section and sample holder. See DOI: 10.1039/c7lc00824dDenz, Manuela et al. | 2017
- 171
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Cyclic olefin copolymer as an X-ray compatible material for microfluidic devicesDenz, Manuela / Brehm, Gerrit / Hémonnot, Clément Y. J. / Spears, Heidi / Wittmeier, Andrew / Cassini, Chiara / Saldanha, Oliva / Perego, Eleonora / Diaz, Ana / Burghammer, Manfred et al. | 2017
- 179
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A deep conical agarose microwell array for adhesion independent three-dimensional cell culture and dynamic volume measurementElectronic supplementary information (ESI) available: Table S1, Fig. S1-S11 and Video S1. See DOI: 10.1039/c7lc00832eThomsen, Andreas R et al. | 2017
- 179
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A deep conical agarose microwell array for adhesion independent three-dimensional cell culture and dynamic volume measurementThomsen, Andreas R. / Aldrian, Christine / Bronsert, Peter / Thomann, Yi / Nanko, Norbert / Melin, Nicola / Rücker, Gerta / Follo, Marie / Grosu, Anca L. / Niedermann, Gabriele et al. | 2017
- 190
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Fluorescence-activated droplet sorting of lipolytic microorganisms using a compact optical systemQiao, Yuxin / Zhao, Xiaoyan / Zhu, Jun / Tu, Ran / Dong, Libing / Wang, Li / Dong, Zhiyang / Wang, Qinhong / Du, Wenbin et al. | 2017
- 197
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Embedding liquid lasers within or around aqueous microfluidic dropletsZheng, Lu / Zhi, Min / Chan, Yinthai / Khan, Saif A. et al. | 2017
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A compartmentalized microfluidic chip with crisscross microgrooves and electrophysiological electrodes for modeling the blood-retinal barrierElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc00795gYeste, Jose et al. | 2017
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On-chip label-free protein analysis with downstream electrodes for direct removal of electrolysis productsElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc00797cSaar, Kadi L et al. | 2017
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Embedding liquid lasers within or around aqueous microfluidic dropletsElectronic supplementary information (ESI) available. See DOI: 10.1039/c7lc00701aZheng, Lu et al. | 2017