Who to Watch Biological

Angela Belcher, Massachusetts Institute of Technology
Cambridge, Massachusetts
belcher10.mit.edu

M. G. Finn, Scripps Research Institute
La Jolla, California
www.scripps.edu/chem/finn

Helmut Strey, University of Massachusetts
Amherst, Massachusetts
www.pse.umass.edu/strey

Viola Vogel, University of Washington
Seattle, Washington
depts.washington.edu/bioe/people/vogel.shtml

Organic

David L. Allara, Pennsylvania State University
University Park, Pennsylvania
london.mri.psu.edu/Allara-Group.htm

Roger T. Bonnecaze, University of Texas at Austin
Austin, Texas
www.che.utexas.edu/fluids-group

Richard M. Crooks, Texas A&M University
College Station, Texas
www.chem.tamu.edu/rgroup/crooks

Hicham Fenniri, Purdue University
West Lafayette, Indiana
www.chem.purdue.edu/hf

Edward J. Kramer, University of California at Santa Barbara
Santa Barbara, California
www.mrl.ucsb.edu/~edkramer

Daniel Y. Kwok,University of Alberta
Edmonton, Canada
www.mece.ualberta.ca/staff/dykwok.htm

Murugappan Muthukumar, University of Massachusetts
Amherst, Massachusetts
rati.pse.umass.edu

Ralph Nuzzo, University of Illinois
Urbana, Illinois
augustus.scs.uiuc.edu/nuzzogroup

Virgil Percec, University of Pennsylvania
Philadelphia, Pennsylvania
perceco2.chem.upenn.edu/~percec

Jim A. Thomas, University of Sheffield
Sheffield, England
www.shef.ac.uk/chemistry/staff/thomas

Shuguang Zhang, Massachusetts Institute of Technology
Cambridge, Massachusetts
web.mit.edu/shuguang/www

Inorganic

Ronald P. Andres, Purdue University
West Lafayette, Indiana
engineering.purdue.edu/ChE/Directory/Faculty/Andres.html

Chris Ford, University of Cambridge
Cambridge, England
www.sp.phy.cam.ac.uk/SPWeb/home/cjbf.html

Janos H. Fendler, Clarkson University
Potsdam, New York
www.clarkson.edu/~janoslab

Stephen Mann, University of Bristol
Bristol, England
www.chm.bris.ac.uk/inorg/mann/webpage.htm

Geoffrey A. Ozin, University of Toronto
Toronto, Canada
www.chem.toronto.edu/staff/GAO/group.html

Ramamoorthy Ramesh, University of Maryland
College Park, Maryland
www.physics.umd.edu/people/faculty/ramesh.html

General, Large-Scale and Theoretical

Len Adleman, University of Southern California
Los Angeles, California
www.usc.edu/dept/molecular-science

Frank Schweitzer, Fraunhofer Institute
Sankt Augustin, Germany
summa.physik.hu-berlin.de/~frank

George Whitesides, Harvard University
Cambridge, Massachusetts
gmwgroup.harvard.edu/domino/html/webpage/homepage2.nsf

What to Look For
Biological:

Circuits made from nanotubes and DNA
3D structures made from nanotubes and DNA
3D structures made from DNA
Data storage devices made from protein-nanoparticle arrays
Data storage devices made from virus peptides
Optical communications devices made from virus peptides

Organic:

Circuits made from polymer nanowires
Biochips patterned by copolymer masks
Memory chips patterned by copolymer masks
Circuits made from individual molecules

Inorganic:

Data storage devices made from nanocrystals
Circuits made from nanocrystals
Data storage devices made from several or individual atoms
Circuits made from several or individual atoms

General a and Large-Scale:

Large-scale electronic devices made from self-assembled components
DNA-like molecules that generate molecular building blocks
Circuit layouts designed by self-assembly