An improved 24 channel picoliter dispenser based on direct liquid displacement

TRANSDUCERS 2003 - 12th International Conference on Solid-State Sensors, Actuators and Microsystems, Digest of Technical Papers

Volumn 1, Issue , 2003, Pages 376-379

  Steinert, C P ^a   Goutier, I ^a   Gutmann, O ^a   Sandmaier, H ^b   Messner, S ^b   Daub, M ^a   De Heij, B ^a   Zengerle, R ^a  

^a UNIVERSITY OF FREIBURG   (Germany)

^b Institute of Micromachining and Information Technology   (Germany)

Author keywords

Biotechnology; Fabrication; Filling; Measurement errors; Microchannel; Microstructure; Probes; Production; Throughput; Windows

Indexed keywords

ACTUATORS; BIOTECHNOLOGY; CONTAMINATION; DISPENSERS; DROPS; FABRICATION; FILLING; MEASUREMENT ERRORS; MICROCHANNELS; MICROSTRUCTURE; MICROSYSTEMS; NOZZLE DESIGN; NOZZLES; PROBES; PRODUCTION; SPRAY NOZZLES; THROUGHPUT; TRANSDUCERS; WINDOWS;

CHANNEL PICOLITER DISPENSER; CROSS CONTAMINATION; DROPLET VELOCITY; HIGHLY PARALLELS; LIQUID DISPLACEMENTS; MASS FABRICATION; NOZZLE DIAMETER; SYSTEMATIC STUDY;

SOLID-STATE SENSORS;

EID: 3042855694     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/SENSOR.2003.1215332     Document Type: Conference Paper

References (6)

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3. B. de Heij et. al., A tuneable and Highly-Parallel Picolitre-Dispenser Based on Direct Liquid Displacement, Sensors and Actuators A 103, 88-92 (2003)
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6. O. Gutmann et. al., Droplet Release in a Highly Parallel Pressure Driven Nanoliter Dispenser, Proc. of IEEE-Transducers 2003, Boston, USA