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Lab on a Chip

Microfluidic & nanofluidic technologies for chemistry, physics, biology, and bioengineering



Contents list for Lab on a Chip, issue 13, 2009

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Front cover
Lab Chip, 2009, 9, 1817
DOI: 10.1039/B910845A

front cover image for Lab on a Chip, Issue 13, 2009

Inside front cover
Lab Chip, 2009, 9, 1818
DOI: 10.1039/B910847P

Contents and Chemical Biology
Lab Chip, 2009, 9, 1819
DOI: 10.1039/B910849C

Highlight

Research Highlights
Lab Chip, 2009, 9, 1829
DOI: 10.1039/b910210h

Communications

A chip-to-chip nanoliter microfluidic dispenser
Jianbin Wang, Ying Zhou, Haiwei Qiu, Huang Huang, Changhong Sun, Jianzhong Xi and Yanyi Huang,  Lab Chip, 2009, 9, 1831
DOI: 10.1039/b901635j

Resonant Rayleigh light scattering response of individual Au nanoparticles to antigen–antibody interaction
Cuong Cao and Sang Jun Sim,  Lab Chip, 2009, 9, 1836
DOI: 10.1039/b901327j

Microfluidic emulsions with dynamic compound drops
Saif A. Khan and Suhanya Duraiswamy,  Lab Chip, 2009, 9, 1840
DOI: 10.1039/b904119b

Papers

Distillation in microchemical systems using capillary forces and segmented flow
Ryan L. Hartman, Hemantkumar R. Sahoo, Bernard C. Yen and Klavs F. Jensen,  Lab Chip, 2009, 9, 1843
DOI: 10.1039/b901790a

Fluorescence-activated droplet sorting (FADS): efficient microfluidic cell sorting based on enzymatic activity
Jean-Christophe Baret, Oliver J. Miller, Valerie Taly, Michaël Ryckelynck, Abdeslam El-Harrak, Lucas Frenz, Christian Rick, Michael L. Samuels, J. Brian Hutchison, Jeremy J. Agresti, Darren R. Link, David A. Weitz and Andrew D. Griffiths,  Lab Chip, 2009, 9, 1850
DOI: 10.1039/b902504a

Nucleation and solidification in static arrays of monodisperse drops
Jon F. Edd, Katherine J. Humphry, Daniel Irimia, David A. Weitz and Mehmet Toner,  Lab Chip, 2009, 9, 1859
DOI: 10.1039/b821785h

Chemical and morphological changes on platinum microelectrode surfaces in AC and DC fields with biological buffer solutions
Aytug Gencoglu and Adrienne Minerick,  Lab Chip, 2009, 9, 1866
DOI: 10.1039/b820126a

Microfluidics for cryopreservation
Young S. Song, SangJun Moon, Leon Hulli, Syed K. Hasan, Emre Kayaalp and Utkan Demirci,  Lab Chip, 2009, 9, 1874
DOI: 10.1039/b823062e

Optimisation and analysis of microreactor designs for microfluidic gradient generation using a purpose built optical detection system for entire chip imaging
Hayat Abdulla Yusuf, Sara J. Baldock, Robert W. Barber, Peter R. Fielden, Nick J. Goddard, Stephan Mohr and Bernard J. Treves Brown,  Lab Chip, 2009, 9, 1882
DOI: 10.1039/b823101j

High speed nanofluidic protein accumulator
Dapeng Wu and Andrew J. Steckl,  Lab Chip, 2009, 9, 1890
DOI: 10.1039/b823409d

A novel multishear microdevice for studying cell mechanics
Lien Chau, Michael Doran and Justin Cooper-White,  Lab Chip, 2009, 9, 1897
DOI: 10.1039/b823180j

Electric field gradient focusing in microchannels with embedded bipolar electrode
Dzmitry Hlushkou, Robbyn K. Perdue, Rahul Dhopeshwarkar, Richard M. Crooks and Ulrich Tallarek,  Lab Chip, 2009, 9, 1903
DOI: 10.1039/b822404h

Charge-based particle separation in microfluidic devices using combined hydrodynamic and electrokinetic effects
L. C. Jellema, T. Mey, S. Koster and E. Verpoorte,  Lab Chip, 2009, 9, 1914
DOI: 10.1039/b819054b

Fabrication of a hybrid PDMS/SU-8/quartz microfluidic chip for enhancing UV absorption whole-channel imaging detection sensitivity and application for isoelectric focusing of proteins
Junjie Ou, Tomasz Glawdel, Carolyn L. Ren and Janusz Pawliszyn,  Lab Chip, 2009, 9, 1926
DOI: 10.1039/b821438g

In situ formation, manipulation, and imaging of droplet-encapsulated fibrin networks
Heather M. Evans, Enkhtuul Surenjav, Craig Priest, Stephan Herminghaus, Ralf Seemann and Thomas Pfohl,  Lab Chip, 2009, 9, 1933
DOI: 10.1039/b820511f

Multi-wavelength microflow cytometer using groove-generated sheath flow
Joel P. Golden, Jason S. Kim, Jeffrey S. Erickson, Lisa R. Hilliard, Peter B. Howell, George P. Anderson, Mansoor Nasir and Frances S. Ligler,  Lab Chip, 2009, 9, 1942
DOI: 10.1039/b822442k

Technical Notes

Microfabricating high-aspect-ratio structures in polyurethane-methacrylate (PUMA) disposable microfluidic devices
Jason S. Kuo, Yongxi Zhao, Laiying Ng, Gloria S. Yen, Robert M. Lorenz, David S. W. Lim and Daniel T. Chiu,  Lab Chip, 2009, 9, 1951
DOI: 10.1039/b902124h

Oil droplet generation in PDMS microchannel using an amphiphilic continuous phase
Su-Kyoung Chae, Chang-Ha Lee, Soo Hyun Lee, Tae-Song Kim and Ji Yoon Kang,  Lab Chip, 2009, 9, 1957
DOI: 10.1039/b816756g

Tuneable hydrophoretic separation using elastic deformation of poly(dimethylsiloxane)
Sungyoung Choi and Je-Kyun Park,  Lab Chip, 2009, 9, 1962
DOI: 10.1039/b820364d

MEMS within a Swagelok®: a new platform for microfluidic devices
Sandeep Unnikrishnan, Henri Jansen, Erwin Berenschot, Berker Mogulkoc and Miko Elwenspoek,  Lab Chip, 2009, 9, 1966
DOI: 10.1039/b901856p

Back matter
Lab Chip, 2009, 9, 1970
DOI: 10.1039/B910850P

Back cover
Lab Chip, 2009, 9, 1971
DOI: 10.1039/B910852C