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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