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Microfluidics Haim Bau, University of Pennsylvania Philadelphia, Pennsylvania www.me.upenn.edu/faculty/bau.html David J. Beebe, University of Wisconsin Madison, Wisconsin mmb.bme.wisc.edu Kenneth Breuer, Brown University Providence, Rhode Island microfluids.engin.brown.edu Harold G. Craighead, Cornell University Ithaca, New York www.aep.cornell.edu/eng10_page.cfm?pg=4&peopleID=9 Richard B. Fair, Duke University Durham, North Carolina www.ee.duke.edu/research/microfluidics Ernest F. Hasselbrink, University of Michigan Ann Arbor, Michigan me.engin.umich.edu/peopleandgroups/faculty/efhass.html Jody House, Oregon Health & Science University Beaverton, Oregon www.ece.ogi.edu/~jhouse Chang-Jin Kim, University of California at Los Angeles Los Angeles, California cjmems.seas.ucla.edu Marc Madou, University of California at Irvine Irvine, California mmadou.eng.uci.edu Carl D. Meinhart, University of California at Santa Barbara Santa Barbara, California www.me.ucsb.edu/~meinhart Owe Orwar, Chalmers University of Technology Göteborg, Sweden www.orwarlab.mc2.chalmers.se Menno Prins, Philips Research Eindhoven, The Netherlands www.research.philips.com/InformationCenter/Global/FArticleDetail.asp?lArticleId=2773&lNodeId Stephen R. Quake, California Institute of Technology Pasadena, California www.its.caltech.edu/~aphhome/quake.html Juan G. Santiago, Stanford University Stanford, California microfluidics.stanford.edu Sandra M. Troian, Princeton University Princeton, New Jersey www.princeton.edu/~stroian/index.html Paul Yager, University of Washington Seattle, Washington faculty.washington.edu/yagerp/index.html Sensors Michael Ladisch, Purdue University West Lafayette, Indiana engineering.purdue.edu/ABE/Fac_Staff/faculty/ladisch.whtml Luke P. Lee, University of California at Berkeley Berkeley, California socrates.berkeley.edu/~lplee Gang-yu Liu, University of California at Davis Davis, California www.chem.ucdavis.edu/groups/liu/html/nano1024.html Chad Mirkin, Northwestern University Evanston, Illinois www.chem.nwu.edu/~mkngrp Tuan Vo-Dinh, Oak Ridge National Laboratory Oak Ridge, Tennessee bio.lsd.ornl.gov Manipulators Johannes Courtial, University of Glasgow Glasgow, Scotland www.physics.gla.ac.uk/Optics/Johannes Kishan Dholakia, University of St. Andrews St. Andrews, Scotland www.st-andrews.ac.uk/~atomtrap Koji Ikuta, Nagoya University Nagoya, Japan www.bmse.mech.nagoya-u.ac.jp/~ikuta Carlo Montemagno, University of California at Los Angeles Los Angeles, California www.cnsi.ucla.edu/faculty/montemagno_c.html What to Look For Sensors: Sensor capable of testing for 100 substances at once Sensor capable of testing for 1,000 substances at once Microscope built into a biochip Microfluidics: Biochip that uses electricity to control droplets Unpowered biochip that uses hydrophilic surfaces and hydrogels Implantable biochip that uses particle-based pumps and valves CD-based microfluidic device for home DNA testing Bacteria harnessed for pumping fluids Hybrid biological/artificial device for drug making/delivery Manipulators: Biochip that includes laser-driven micromachines Microfluidic device that includes laser tweezers Device that injects substances into individual cells Microrobotic surgical tools |
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