Title :
Droplet release in a highly parallel, pressure driven nanoliter dispenser
Author :
Gutmann, O. ; Niekrawietz, R. ; Steinert, C.P. ; Sandmaier, H. ; Messner, S. ; de Heij, B. ; Daub, M. ; Zengerle, R.
Author_Institution :
IMTEK, Freiburg Univ., Germany
Abstract :
For the first time we report about the correlation between satellite free droplet release and liquid viscosity in a highly parallel, pressure driven nanoliter dispenser. In extensive studies we found that for liquids of different viscosities the length of the pressure pulse is the predominant effect compared to pressure amplitude. This result is of essential importance when actuation parameters have to be adopted for different media like oligonucleotide, DNA or protein solutions as it is the case for the non-contact high-throughput fabrication of microarrays. For each used printing buffer we found the CV to be better than 1 % within one single dispensing channel and 1.5 % within all 24 channels at a pitch of 500 /spl mu/m.
Keywords :
DNA; biotechnology; drops; microactuators; molecular biophysics; piezoelectric actuators; proteins; viscosity; 500 micron; DNA; actuation parameters; liquid viscosity; microarrays; noncontact high-throughput fabrication; oligonucleotide; parallel pressure driven nanoliter dispenser; piezostack actuator; pressure pulse; printing buffer; protein solutions; satellite free droplet release; DNA; Glass; Needles; Pistons; Printing; Probes; Proteins; Reservoirs; Silicon; Throughput;
Conference_Titel :
TRANSDUCERS, Solid-State Sensors, Actuators and Microsystems, 12th International Conference on, 2003
Conference_Location :
Boston, MA, USA
Print_ISBN :
0-7803-7731-1
DOI :
10.1109/SENSOR.2003.1215329
