Article
Open Access
Structured attachment of bacterial molecular motors for defined microflow induction
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Published/Copyright:
April 24, 2014
Received: 2014-1-29
Accepted: 2014-2-23
Published Online: 2014-4-24
Published in Print: 2014-1-1
© 2014 Mike Woerdemann et al.
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- Regular Articles
- 10.2478/optof-2013-0001
- 10.2478/optof-2013-0002
- Structured attachment of bacterial molecular motors for defined microflow induction
- Topical Articles: Advances in Optofluidics: Integration of Optical Control and Photonics with Microfluidics
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- T-junction droplet generator realised in lithium niobate crystals by laser ablation
- Birefringence improvement in azopolymer doped with MFI zeolite nanoparticles
- Multimode Sensor of Fluids Based on Porous Film
- Chitosan microgels obtained by on-chip crosslinking reaction employing a microfluidic device
- Running Droplet Optical Multiplexer
Keywords for this article
holographic optical tweezers;
micromanipulation;
Bacillus subtilis;
rod-shaped bacteria;
microfluidics
Creative Commons
BY-NC-ND 3.0
Articles in the same Issue
- Regular Articles
- 10.2478/optof-2013-0001
- 10.2478/optof-2013-0002
- Structured attachment of bacterial molecular motors for defined microflow induction
- Topical Articles: Advances in Optofluidics: Integration of Optical Control and Photonics with Microfluidics
- Soap Films as 1D waveguides
- T-junction droplet generator realised in lithium niobate crystals by laser ablation
- Birefringence improvement in azopolymer doped with MFI zeolite nanoparticles
- Multimode Sensor of Fluids Based on Porous Film
- Chitosan microgels obtained by on-chip crosslinking reaction employing a microfluidic device
- Running Droplet Optical Multiplexer
