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Research Highlights
Alternating current-dielectrophoresis driven on-chip collection and chaining of green microalgae in freshwaters
Coralie Suscillon, Orlin D. Velev, and Vera I. Slaveykova
The capability of the AC dielectrophoresis (DEP) for on-chip capture and chaining of microalgae suspended in freshwaters was evaluated. The effects of freshwater composition as well as the electric field voltage, frequency, and duration, on the dielectrophoretic response of microalga Chlamydomonas reinhardtii were characterized systematically. Highest efficiency of cell alignment in one-dimensional arrays, determined by the percentage of cells in chain and the chain length, was obtained at AC-field of 20V/mm and 1kHz applied for 600s.
A capillary dielectrophoretic chip for real-time blood cell separation from a drop of whole blood
Shu-Hsien Liao, Ching-Yu Chang, and Hsien-Chang Chang
This study proposes a capillary dielectrophoretic chip to separate blood cells from a drop of whole blood (approximately 1μl) sample using negative dielectrophoretic force. The separating efficiency was evaluated by analyzing the image before and after dielectrophoretic force manipulation. Blood samples with various hematocrits (10%-60%) were tested with varied separating voltages and chip designs. In this study, a chip with 50μm gap design achieved a separation efficiency of approximately 90% within 30s when the hematocrit was in the range of 10%-50%.
A fluorescence based method for the quantification of surface functional groups in closed micro- and nanofluidic channels
Yu Wang, Rachel D. Lowe, Yara X. Mejia, Holger Feindt, Siegfried Steltenkamp, and Thomas P. Burg
Surface analysis is critical for the validation of microfluidic surface modifications for biology, chemistry, and physics applications. However, until now quantitative analytical methods have mostly been focused on open surfaces. Here, we present a new fluorescence imaging method to directly measure the surface coverage of functional groups inside assembled microchannels over a wide dynamic range.
Announcements
Biomicrofluidics remains an emergic leader in micro- and nanofluidics
IMPACT FACTOR: 3.385
Recently released journal metrics for Biomicrofluidics show an increase in impact factor for 2012. Read More.
*2012 Journal Citation Reports® (Thomson Reuters, 2013)
2013 Best Paper Award
Biomicrofluidics is pleased to announce the best paper award for 2013. Read the eligibility requirements and other details here.
Biomicrofluidics - new tagline and more issues
Going into the seventh year of publication, the journal has a tagline added to the title and starts publishing 6 issues per year. Read the editorial for details.
SPIE Micro+Nano 2013 Call for Papers
The SPIE Micro+Nano Materials, Devices, and Applications forum is now accepting abstracts for their 2013 meeting, held from 8 to 11 December in Melbourne, Australia. Abstracts are due by 10 June 2013. More details are available here.
Thanking Referees
The Editors wish to express their appreciation to the referees for their conscientious efforts on behalf of the journal in 2012. Click here for a list.
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