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Project List
NSF,
ECCS 0936056, "REU", $6,000 (PI)
NSF, IOS 0946735, "Interrogating Plant Volatile Reports About the
Environment," $300,000 (shared the same credit as the PI (Prof.
Jack Schultz)
NSF, ECCS 0853399, "Integrated versatile opto-fluidic ring resonator
laser systems with ultralow threshold," $311,686 (PI)
Wallace H. Coulter
Foundation, Early Career Award (Phase II),
"Prototyping Lab-on-a-Chip Based on Liquid Core Optical Ring Resonators
For Detection of Breast Cancer Biomarkers," $260,000 (PI)
NSF, ECCS-0608745,
"Functionalized Nanoscale Materials for Sensor Architectures," $102,392
(shared PI credit with Prof. Sheila Grant)
NSF, ECCS-0729903,
"Development of highly sensitive ultrafast micro gas chromatography for
explosive detection", $400,000 (PI)
NSF-CAREER, CBET-0747398,
"Fluorescence Resonant Energy Transfer in Opto-fluidic Ring Resonators
for Ultrasensitive Biomolecule Detection," $400,000 (single PI)
American Chemistry Petroleum Research Fund, 43879-G10,
"Single Molecule Raman Detection with a Composite Microresonator and
Metal Nanocavity System," $35,000 (single PI, no overhead)
Wallace H. Coulter
Foundation, Early Career Award,
"Prototyping Lab-on-a-Chip Based on Liquid Core Optical Ring Resonators
For Detection of Breast Cancer Biomarkers," $238,000 (PI)
3M Foundation,
Non-Tenured Faculty Award, $67,500 (no overhead, single PI)
Missouri Beef
Industry Council,
"Rapid Simultaneous Detection of Escherichia coli O157:H7 and Salmonella
in Ground Beef by Quantum Dot Labeled Antibodies and Immunomagnetic
Separation," $51,792 (shared the PI credit with Prof. Azlin Mustapha, no
overhead)
NIH 5K25EB006011,
"Highly Sensitive Biosensor Platform Using Optical Microring
Resonators," $447,953, (Primary mentor)
NIH 5R21EB5840-3,
"Atomic Force-FRET Microscopy," $569,843 (8%, PI: Gerald Meininger)
UM-Research Board,
"Novel Raman Bio/Chemical Sensors," $27,742, (single PI, no overhead)
MU-Research Council,
"Multiplexed liquid core optical ring resonator sensors with sub-nanoliter
detection volume," $7,500 (single PI, no overhead)
DARPA-subcontract
from ICx Nomadics,
"Micro-gas-chromatography based on liquid core optical ring resonator,"
$12,000 (single PI).
MU Bioprocessing and
Biosensing
Center
(multiple grants)
Dr. Fan’s lab focuses on the development of novel
bio/chemical sensor platform based on opto-fluidic ring resonators. As
compared to regular waveguide-based sensors, ring resonator sensors will
potentially feature low detection limit, low sample consumption, and
large integration density. Both label-free and fluorescence-labeled
detection protocols are used in either planar or spherical ring
resonators. In addition to the detection of large bio-entities such as
protein molecules and bacteria, this lab is also interested in small
molecule detection, which is useful for drug discovery.
Since the intensity
of the light in a ring resonator can greatly be enhanced, nonlinear
optical detection becomes possible. Dr. Fan’s lab is also dedicated to
developing nonlinear optical sensors that can open up a new avenue to
sensing transduction mechanisms.
Nanophotonics is
another research area in Dr. Fan’s lab. Fluorescent semiconductor
quantum dots and metal nanoparticles will be used in combination with
ring resonator technology. One current project is to achieve enhanced
Raman scattering through the hybrid system of ring resonator and gold
nanoparticles. Another project is to achieve organized arrays of
semiconductor quantum dots and gold nanoparticles on a silicon wafer
through nanoporous templating or self-assembly.
Students in Dr.
Fan’s lab will learn the optical waveguide/fiber, nanotechnologies, and
optical biosensor theory and gain hands-on experience through research
projects that are mentioned previously. Additionally, students are
expected to join interdisciplinary research endeavor in such areas as
waveguide fabrication, surface characterization, nanoparticle
fabrication and manipulation, and biomolecule synthesis and
immobilization.
Please read our
review article on "liquid
core optical ring resonator sensors" (published at Proc. SPIE
6452-18, Photonics West,
San Jose,
CA
2007, invited paper)
Please read our news
release at
http://newsroom.spie.org/x5463.xml?highlight=x539
or download the
PDF file
Read another story of "Ultra
Small Lab-on-a-Chip"
 
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