kw.\*:("Droplet-based microfluidics")
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Microfluidic encapsulation of cells in alginate particles via an improved internal gelation approachAKBARI, Samin; PIRBODAGHI, Tohid.Microfluidics and nanofluidics (Print). 2014, Vol 16, Num 4, pp 773-777, issn 1613-4982, 5 p.Article
One-step fabrication of titania hollow spheres by controlled interfacial reaction in a droplet-based microfluidic systemZHAO, Chun-Xia; MIDDELBERG, Anton P. J.Microfluidics and nanofluidics (Print). 2013, Vol 14, Num 3-4, pp 703-709, issn 1613-4982, 7 p.Article
Electrostatic energy harvesting by droplet-based multi-phase microfluidicsYILDIRIM, Ender; KÜLAH, Haluk.Microfluidics and nanofluidics (Print). 2012, Vol 13, Num 1, pp 107-111, issn 1613-4982, 5 p.Article
Three-dimensional simulation of mixing performance inside droplets in micro-channels by Lattice Boltzmann methodSHUFANG ZHAO; WENTAN WANG; MENGXUE ZHANG et al.Chemical engineering journal (1996). 2012, Vol 207-208, pp 267-277, issn 1385-8947, 11 p.Conference Paper
Control of aqueous droplets using magnetic and electrostatic forcesOHASHI, Tetsuo; KUYAMA, Hiroki; SUZUKI, Koichi et al.Analytica chimica acta. 2008, Vol 612, Num 2, pp 218-225, issn 0003-2670, 8 p.Article
Optimization Techniques for the Synchronization of Concurrent Fluidic Operations in Pin-Constrained Digital Microfluidic BiochipsYANG ZHAO; CHAKRABARTY, Krishnendu; STURMER, Ryan et al.IEEE transactions on very large scale integration (VLSI) systems. 2012, Vol 20, Num 6, pp 1132-1145, issn 1063-8210, 14 p.Article
An analytical model for plug flow in microcapillaries with circular cross sectionCHE, Zhizhao; NENG WONG, Teck; NGUYEN, Nam-Trung et al.International journal of heat and fluid flow. 2011, Vol 32, Num 5, pp 1005-1013, issn 0142-727X, 9 p.Article
Scaling the formation of slug bubbles in microfluidic flow-focusing devicesTAOTAO FU; FUNFSCHILLING, Denis; YOUGUANG MA et al.Microfluidics and nanofluidics (Print). 2010, Vol 8, Num 4, pp 467-475, issn 1613-4982, 9 p.Article
Droplet formation and breakup dynamics in microfluidic flow-focusing devices: From dripping to jettingTAOTAOFU; YININGWU; YOUGUANGMA et al.Chemical engineering science. 2012, Vol 84, pp 207-217, issn 0009-2509, 11 p.Article
Continuous monitoring of bisulfide variation in microdialysis effluents by on-line droplet-based microfluidic fluorescent sensorXIAOCUI ZHU; LEI XU; TONGBO WU et al.Biosensors & bioelectronics. 2014, Vol 55, pp 438-445, issn 0956-5663, 8 p.Article
Dynamics of droplet formation at T-shaped nozzles with elastic feed linesMALSCH, Daniéll; GLEICHMANN, Nils; KIELPINSKI, Mark et al.Microfluidics and nanofluidics (Print). 2010, Vol 8, Num 4, pp 497-507, issn 1613-4982, 11 p.Article
Design of multi-functional microfluidic ladder networks to passively control droplet spacing using genetic algorithmsMADDALA, Jeevan; RENGASWAMY, Raghunathan.Computers & chemical engineering. 2014, Vol 60, pp 413-425, issn 0098-1354, 13 p.Article
Supramolecular Hydrogel Capsules Based on PEG: A Step Toward Degradable Biomaterials with Rational DesignROSSOW, Torsten; BAYER, Sebastian; ALBRECHT, Ralf et al.Macromolecular rapid communications. 2013, Vol 34, Num 17, pp 1401-1407, issn 1022-1336, 7 p.Article