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Company
Street
Award ID Company Address City State Zip
9058 Euclid
0319432 Airak, Inc. Avenue Manassas VA 20110
11711 Chase
0232515 ALD NanoSolutions, Inc. Ct Westminster CO 800205961
6 Skyline
0319577 Anvik Corporation Drive Hawthorne NY 10532
150-H New
0319327 BATI Boston Street Woburn MA 1801
0319470 CCL Biomedical, Inc. P.O. Box 276 Newark DE 197150276
2400 Central
0320446 D.M.T. Ave., Suite A Boulder CO 80301
100 3rd St N,
0232966 Denet Labs Suite 270 Grand Forks ND 582014730
0319282 DES Colorado Springs O
949 Elkton Drive C 80907
3448 Forest
0319868 Digimmune Rd. Bethel Park PA 151021420
1064 Vali
0232558 Drakon Energy LLC Road Powell WY 824359259
15100
Enterprise
Court, Suite
0320186 Edenspace 100 Dulles VA 201511217
450 Bedford
0232640 Exa Corp. Street Lexington MA 24201500
315 Huls
0232064 Faraday Technology Inc Drive Clayton OH 45315
510
Charmany
0319902 GA Inc. Drive Madison WI 537191235
4509 Interlake
0320427 Insilicos Ave N.,#223 Seattle WA 981036782
0320308 Intelligent Prosthetics 452 Spring St. Ann Arbor MI 481033233
8130 Shaffer
0320375 ITN Energy Systems Inc Parkway Littleton CO 801274107
0320100 Metis Design 46 Second St. Cambridge MA 21411735
21 West
Mountain,
0232725 NanoMech Suite 122 Fayetteville AR 72701
8285 El Rio
Street, Ste
0319962 Nanospectra Bio, Inc. 130 Houston TX 77054
8285 El Rio
Street,Suite
0319965 Nanospectra Bio, Inc. 130 Houston TX 77054
1050 E.
Duane
Avenue,Suite
0320431 Picarro, Inc. H Sunnyvale CA 940852626
4009 Day
0318781 Renewable Alternatives Flower Court Columbia MO 652036110
1400 West
0232945 SDHTI 22nd Street Sioux Falls SD 571051570
1275 Kinnear
0320041 SensIrOx Road Columbus OH 432121155
3449 Delmar
0319303 Sensor Development Corp. Drive Rocky River OH 44116
201 Circle
Drive,Suite
0320135 SMI 103 Piscataway NJ 8854
3002 Progress
0319448 Stress Photonics Inc Rd Madison WI 537163336
3402 Sugar
0232438 Virent Maple Lane Verona WI 53593
660 George
Washington
0320332 YAHSGS Way,Suite Y Richland WA 993524246
0232384 Ziena Optimization Inc. Evanston
2615 Hartzell Street IL 602011311
Research
Research Inst Inst Research Research Research
Name Address Inst City Inst State Inst Zip Sol # Topic Subtopic
460
Virginia Polytechnic Turner
Institute and State Street,
University Suite 306 Blacksburg VA 24060 02-56 EL C
3100
University of Marine
Colorado at Street,
Boulder Room 481 Boulder CO 80305 02-56 AM A2
University of Illinois
at Urbana- 801 South
Champaign Wright St Champaign IL 61820 02-56 EL J
26 East
Main
Wheaton College Street Norton MA 02766-0930 02-56 EL K
University of
Delaware Newark DE 19716 02-56 BT P,I
3100
University of Marine
Colorado at Street,
Boulder Room 481 Boulder CO 80305 02-56 EL F
1735
University of North Research
Dakota Park Drive Fargo ND 58105-5756 02-56 IT A4
2354
US Air Force Fairchild Colorado
Academy Drive Springs CO 80907 02-56 EL
5000
Carnegie-Mellon Forbes
University Avenue Pittsburgh PA 15213-3890 02-56 BT J
1000 East
University of University
Wyoming Avenue Laramie WY 82071 02-56 AM G.2
601
Administr
University of ation
Arizona Building Tucson AZ 85721 02-56 BT E
5000
Carnegie-Mellon Forbes
University Avenue Pittsburgh PA 15213-3890 02-56 AM A2
Sears
Library,
6th Floor;
10900
Case Western Euclid
Reserve Avenue Cleveland OH 44106-7015 02-56 AM G4
University of 750
Wisconsin- University
Madison Ave Madison WI 53706-1490 02-56 BT A,
3935
University of University
Washington Way NE Seattle WA 98105-6613 02-56 BT B
University of 3003 S
Michigan Ann State St.
Arbor RM 1062 Ann Arbor MI 48109-1274 02-56 BT M
2801
West
Bancroft
University of St, MS
Toledo 944 Toledo OH 43606-3390 02-56 EL K
77
Massachusetts Massachu
Institute of setts
Technology Avenue Cambridge MA 02139-4307 02-56 EL P
University of 120 Ozark
Arkansas Hall Fayetteville AR 72701 02-56 AM F
6100 Main
William Marsh Rice Street, MS-
University 16 Houston TX 77251-1892 02-56 BT P
6100 Main
William Marsh Rice Street, MS-
University 16 Houston TX 77251-1892 02-56 BT R
651 Serra
Street,
Stanford University Room 260 Palo Alto CA 94306-1622 02-56 BT J
University of 310 Jesse
Missouri-Columbia Hall Columbia MO 652036110 02-56 BT K
414 East
University of South Clark
Dakota Street Vermillion SD 57069 02-56 IT A2
300
University of College
Dayton Park Dayton OH 45469-0104 02-56 BT L
Sears
Library,
6th
Floor,109
Case Western 00 Euclid
Reserve Avenue Cleveland OH 44106-7015 02-56 EL A
University of 750
Wisconsin- University
Madison Ave Madison WI 53706-1490 02-56 EL C
University of Illinois
at Urbana- 801 South
Champaign Wright St Champaign IL 61820 02-56 EL a
100 S.
University of Baldwin
Wisconsin St. Madison WI 53703-3001 02-56 AM G4
Bethel
Oak Ridge National Valley
Laboratory Road Oak Ridge TN 37831 02-56 EL H
Northwestern 633 Clark
University Street Evanston IL 60208-1110 02-56 IT
Dollars
Obligated Minority Woman Period
Title FY 03 & Disadv Owned of Perf FFC Abstract
STTR Phase I: Integrated
Magneto-Optic Current Sensor
for Power Electronics Modules 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: Novel
Nanocoated Ferromagnetic
Materials 100,000 Y Y 12 0 This Small Business Technology Tra
STTR Phase I: Fabrication of
Large-Area, High-Density
Microdischarge Arrays on
Flexible Substrates 99,999 N N 12 0 This Small Business Technology Tra
STTR Phase I: Novel
OptoCeramic Materials for High
Efficiency Ceramic Lasers 99,986 N Y 12 0 This Small Business Technology Tra
STTR Phase I: Engineering of
Non-leaching Antibacterial
Surfaces and Textiles 99,977 N Y 12 0 This Small Business Technology Tra
STTR Phase I: A Fast Scanning
Aerosol Thermal Measurement to
Classify Volatile Compounds 99,849 Y N 12 0 This Small Business Technology Tra
STTR PHASE I: Weather
Information Network Enabled
Mobile System 98,291 N N 12 0 The goal of this Small Business Tech
99,964
STTR Phase I: Advanced Sodium Beacon Laser N N 12 0 This Small Business Technology Tra
STTR Phase I: Proof of
Concept of a Digital Magnetic
Biosensor 99,999 N N 12 0 This Small Business Technology Tra
STTR Phase I: Feasibility of
Generating Electricity Using
Thermal Energy Extracted From
Existing Underground Coal &
Waste Bank Fires 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: Anthocyanin
Signaling of Heavy Metal
Contamination 100,000 N Y 12 0 This Small Business Technology Tra
STTR Phase I: Nanoscale
Transport Processes
Prediction/Design/Analysis Tool
for NEMS Applications 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: Low-Cost
Manufacturing of Fuel Cell MEAs
with Highly Dispersed Catalyst 100,000 N Y 12 0 This Small Business Technology Tra
STTR Phase I: Optics Design
Feasibility for a Massively Parallel
Oligonucleotide Synthesizer 99,997 N N 12 0 This Small Business Technology Tra
STTR Phase I: Analysis of
Comprehensive Two Dimensional
Gas Chromatography with Mass
Spectrometry for High-
Throughput Metabolomics 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: Controlled
Energy Storage and Release in
an Intelligent Prosthetic Foot 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: P-Type CdSe
for Thin-Film Top Cells Enabling
High-Efficiency Monolithic
Tandem Photovoltaics 99,932 N N 12 0 This Small Business Technology Tra
STTR Phase I: Packaging of
Structural Health Monitoring
Micro-Components 99,999 N N 12 0 This Small Business Technology Tra
STTR Phase I: A CBN/TiN
Nanocomposite Coating for
Cutting Tools 100,000 N N 12 0 This Small Business Technology Tr
STTR Phase I: Nanoshell-Based
Cancer Therapy 99,994 N Y 12 0 This Small Business Technology Tra
STTR Phase I: Nanoparticle-
Assisted Laser Tissue Welding 99,957 N N 12 0 This Small Business Technology Tra
STTR Phase I: Novel Cavity
Ringdown Detector for High
Performance Liquid
Chromatography 99,273 N N 12 0 This Small Business Technology Tra
STTR Phase I: Glycerin Product
for Burgeoning Biodiesel Industry 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: PDA-Based Bird
Identification Program 99,968 N Y 12 0 This Small Business Technology Tra
STTR Phase I: State-of-the-Art
pH Monitoring in Bioreactors 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: An Unique, Low-
Cost, Real-Time Mold Detector 99,998 N N 12 0 This Small Business Technology Tra
STTR Phase I: Low Voltage
Ultrafast Traveling Wave
Modulator 100,000 N N 12 0 This Small Business Technology Tra
STTR Phase I: Rapid,
Nondestructive Residual Stress
Characterization of
Semiconductor Materials 95,393 N N 12 0 This Small Business Technology T
STTR Phase I: Production of
Clean Fuels from Biomass:
Aqueous-Phase Catalytic
Reforming of Oxygenated
Hydrocarbons 99,900 N N 12 0 This Small Business Technology Tra
STTR Phase I: Polar On Line
Acquisition Relay and
Transmission System
(POLARATS) 99,997 N Y 12 0 This Small Business Technology Tra
STTR Phase I: Integrated Software99,994 N N 12 0
and Systems for Large-Scale Nonlinear Optimization This Small Business Technology T
3,092,467
l Business Technology Transfer (STTR) Phase I project proposes to develop magneto-optical current and temperature sensors capable of d
l Business Technology Transfer Phase I project will apply novel Atomic Layer Deposition (ALD) technology for the encapsulating of ultrafine
l Business Technology Transfer (STTR) Phase I project proposes to develop atechnique for the fabrication of large-area, high-density micro
l Business Technology Transfer (STTR) Phase I project will develop next-generation ceramic materials for high-energy laser applications. Th
l Business Technology Transfer (STTR) Phase I proposes to develop antibacterial surfaces and textiles for commercial applications. A serie
l Business Technology Transfer (STTR) Phase I project will design and construct a basic fast response scanning thermo system. Laboratory
of this Small Business Technology Transfer (STTR) Phase I project is to determine the feasibility of leveraging existing weather and commun
l Business Technology Transfer Program (STTR)Phase I project will design an all-fiber optic 589nm guidestar laser. The use of guidestar la
l Business Technology Transfer (STTR) Phase I project seeks to develop the detector portion of a novel Digital Magnetic Biosensor ("DIBS"
l Business Technology Transfer Phase I project will investigate the feasibility of generating electricity from existing fires in abandoned coal m
l Business Technology Transfer (STTR) Phase I project is to develop an innovative, cost-effective, real time biosensor system that uses plan
l Business Technology Transfer Phase I project will produce a unique computational tool for predicting transport in nanoscale systems. The
l Business Technology Transfer (STTR) Phase I project addresses the need for low-cost manufacturing of fuel cell components, by the deve
l Business Technology Transfer (STTR) Phase I project is to develop the instrumentation and processes to fabricate ex-novo large numbers
l Business Technology Transfer (STTR) Phase I project will investigate a new method for analyzing metabolites using novel instrumentation
l Business Technology Transfer (STTR) Phase I project is to develop an intelligent prosthetic foot that reduces the energy consumption of w
l Business Technology Transfer (STTR) Phase I project will develop a wide-bandgap, thin-film semiconductor to enable a high-efficiency ligh
l Business Technology Transfer (STTR)Phase I project will develop manufacturing, packaging and interface concepts for critical Structural H
all Business Technology Transfer (STTR) Phase I project will develop a novel class of coatings, initially for hard turning cutting tool applicat
l Business Technology Transfer (STTR) Phase I will develop a novel, nanotechnology-based cancer therapy. This therapy, nanoshell-based
l Business Technology Transfer (STTR) Phase I project on nanoparticle-assisted laser tissue welding will develop a novel approach for targe
l Business Technology Transfer (STTR) Phase I project will develop detector based on cavity ringdown spectroscopy (CRDS) for high-perfo
l Business Technology Transfer (STTR) Phase I project will develop biomass-processing technology for converting crude natural glycerin to
l Business Technology Transfer (STTR) Phase I project will develop and test a PDA (Personal Digital Assistant)-based software that will fac
l Business Technology Transfer (STTR) Phase I project will demonstrate a feasible approach to manufacturing metal oxide based pH senso
l Business Technology Transfer (STTR) Phase I research proposal will demonstrate a novel, inexpensive, nano-crystalline based metal oxid
l Business Technology Transfer (STTR) Phase I project will demonstrate a low-voltage waveguide modulator device, capable of operation a
all Business Technology Transfer (STTR) Phase I project proposes to produce an infrared photo-elastic stress analysis system utilizing c
l Business Technology Transfer (STTR) Phase I project will develop a catalytic process for the generation of hydrogen and/or hydrocarbon f
l Business Technology Transfer (STTR) Phase I project focuses on the feasibility of deploying closely coupled monitors with global positionin
mall Business Technology Transfer Phase I project will address the problem of creating robust and efficient software for the solution of large-s
nd temperature sensors capable of direct integration into power electronic modules, with the design goal of improving reliability and survivab
ogy for the encapsulating of ultrafine particle surfaces used in certain advanced materials for aerospace applications and drug delivery. Ultra
ion of large-area, high-density microdischarge arrays on flexible substrates. Microdischarge devices are a type of photonic emitter and detec
for high-energy laser applications. The significance of this innovation include (1) high concentration doping capability; (2) a comprehensive d
for commercial applications. A series of novel potent dendrimer biocides has been identified, which can be used alone to kill microorganism
scanning thermo system. Laboratory and ambient air measurements will demonstrate the advantage of the fast response thermo system to
raging existing weather and communication systems to provide location-specific, detailed, automatic, and continuous weather information na
destar laser. The use of guidestar lasers in conjunction with adaptive optics can provide for near diffraction-limited performance of large ape
l Digital Magnetic Biosensor ("DIBS"). The primary goal is to establish the feasibility of detecting and counting individual protein molecules u
m existing fires in abandoned coal mines and waste banks. These can be high temperature fires (charted in excess of 1,200 degrees Fahre
time biosensor system that uses plants to monitor water and soil quality. Monitoring heavy metal contaminants in the environment, particula
ransport in nanoscale systems. The novel approach to be used here is based on Lattice Boltzmann Methods (LBM) which will enable virtual
of fuel cell components, by the development of a reel-to-reel electrodeposition process to maximize catalyst dispersion and utilization at loa
s to fabricate ex-novo large numbers of user-specified oligonucleotides in hours, using a proprietary tabletop production system. Oligomers
abolites using novel instrumentation and software. Currently, metabolomics offers critical new information to pharmaceutical and other biolog
educes the energy consumption of walking in amputees. Commercial prostheses use passive mechanisms to provide articulation, cushionin
ductor to enable a high-efficiency light-absorber layer for the top cell in monolithic tandem or multi-junction thin-film photovoltaics. Because
face concepts for critical Structural Health Monitoring (SHM) components. The intention is to be able to cheaply manufacture robust actuato
y for hard turning cutting tool application, using a new hybrid coating technology. Specifically, it is proposed to develop cubic b
erapy. This therapy, nanoshell-based thermal ablation (NBTA), holds the promise as a significant new therapeutic tool for the treatment of ot
ill develop a novel approach for targeting heat generation to a wound site allowing deeper, more uniform welds and a reduction in the extent
spectroscopy (CRDS) for high-performance liquid chromatography (HPLC). The goal of this Phase I feasibility study is to demonstrate a CR
converting crude natural glycerin to antifreeze. The rapidly expanding U.S. biodiesel industry collects millions of gallons of crude glycerin pe
ssistant)-based software that will facilitate bird identification in the field by combining geographic information with images, audio, and descri
acturing metal oxide based pH sensors for use in long-term cell culture and tissue-engineering experiments. Current electrochemical pH sen
ve, nano-crystalline based metal oxide semiconductor sensor array that will provide a new technology platform for the real-time early detectio
ulator device, capable of operation at speeds up to 40 Gb/s. Ultimately, this device will be capable of operating at speeds up to 100 Gb/s, wi
stic stress analysis system utilizing cutting edge technology analogous to visible light photo-elasticity and applied for the first time to opti
on of hydrogen and/or hydrocarbon fuel gases from biomass. The project will generate fuel gases by reactions of oxygenated hydrocarbons
oupled monitors with global positioning systems (GPS), central processing units (CPU), and satellite communication devices to ultimately pr
nt software for the solution of large-scale nonlinear optimization problems. Taking advantage of recent advances in algorithm design, the pro
l of improving reliability and survivability
applications and drug delivery. Ultrafi
a type of photonic emitter and detecto
ng capability; (2) a comprehensive dop
n be used alone to kill microorganisms, o
the fast response thermo system to classify vo
nd continuous weather information natio
ion-limited performance of large aperture telescopes. A compact and efficient fiber laser based device that emits a nearly diffraction limited,
unting individual protein molecules u
ed in excess of 1,200 degrees Fahrenh
minants in the environment, particularl
thods (LBM) which will enable virtual proto
alyst dispersion and utilization at loading
etop production system. Oligomers will
on to pharmaceutical and other biological
sms to provide articulation, cushioning agai
on thin-film photovoltaics. Because
cheaply manufacture robust actuator/sens
posed to develop cubic b
herapeutic tool for the treatment of otherwis
m welds and a reduction in the extent of t
asibility study is to demonstrate a CRDS detec
millions of gallons of crude glycerin pe
ation with images, audio, and descri
ents. Current electrochemical pH sensors do
atform for the real-time early detection of
erating at speeds up to 100 Gb/s, with
d applied for the first time to opti
actions of oxygenated hydrocarbons derived
mmunication devices to ultimately provi
advances in algorithm design, the project will investigate novel versions of both interior-point and active-set methods for nonlinear optimizatio
hat emits a nearly diffraction limited, 10W beam at 589nm for sodium guide star applications will be demonstrated. This laser can be mounte
set methods for nonlinear optimization, and will examine an innovative integrated approach that takes advantage of both methods to achieve
onstrated. This laser can be mounted directly behind the secondary of any major telescope eliminating issues with complex coupling optics
dvantage of both methods to achieve greater speed and reliability than are available from current single-method codes. Optimization softwar
ssues with complex coupling optics and attendant stability requirements. Telescope resolution is limited by atmospheric distortion to that of a
method codes. Optimization software resulting from this research is expected to have commercial applications to difficult nonlinear problems
by atmospheric distortion to that of a 23 cm telescope 1. Using adaptive optics schemes, atmospheric distortions can be removed allowing f
cations to difficult nonlinear problems in such areas as network planning, optimal power flow, computer-aided design, and aerospace engine
distortions can be removed allowing for up to a 4 m diffraction limited telescope. The key component to this system is the guide star laser.Th
aided design, and aerospace engineering, as well as in applications for decision analysis in such areas as finance and revenue managemen
his system is the guide star laser.The next generation 589 nm Sodium laser proposed in Phase I would have significant applications to the a
as finance and revenue management. Broader impacts of the activity include enhanced understanding of optimization techniques that play a
have significant applications to the astronomy community. Currently, argon-ion pumpe
of optimization techniques that play a key role in engineering and commerce; an advanc
Company Street Company Company Company
Award ID Company Address City Name State Zip
0239071 PFM Mfg. Inc. 310 - 6th Street Townsend MT 596440000
0239356 Soft Sight, Inc. 3105 Knapp Road Vestal NY 13850
2851 Commerce
0321630 Luna Innovations, Inc. Street Blacksburg VA 240621704
0321635 Barr-Mullin Inc. 2506 Yonkers Rd. Raleigh NC 276042241
0321699 MicroLink 6457 Howard Street Niles IL 607143301
0321712 Tel Med Technologies P.O. Box 8042 Port Huron MI 480618042
Research
Inst Research Research Research
Research Inst Name Address Inst City Inst State Inst Zip Sol # TOPIC SUBTOPIC
1300 W.
Montana Tech of the Park
University of Montana Street Butte MT 59701 NSF 01-28 EL F
Wright State University NSF 00-48 AM E1
460
Virginia Polytechnic Turner
Institute and State Street,
University Suite 306 Blacksburg VA 24060 NSF 01-28 AM A2
Lower
Level
Leazar
North Carolina State Hall, C.B.
University 7514 Raleigh NC 27604 NSF 01-28 IT C1
University of Texas at P.O Box 78713-
Austin 7726 Austin TX 7726 NSF 01-28 AM A2
1870
Miner
Circle,
University of Missouri- 215 ME 65409-
Rolla Annex Rolla MO 1330 NSF 01-28 AM E3
DOLLARS
OBLIGATED Minority / Woman Period of
TITLE FY-03 Disadv Owned Perf FFC Abstract
STTR Phase II: A Rapid-
deployment, Three-
dimensional (3-D), Seismic
Reflection System 494,296 N N 24 Y This Small Business Technology
STTR Phase II: IntelliStitch
AI: Intelligent Computerized
Embroidery Design
Automation for the Textile
Industry 499,321 N N 24 Y This Small Business Technology
STTR PHASE II: Nuclear-
Magnetic Resonance (NMR)
Properties of Carbon
Nanomaterials for Medical
Applications 490,996 N Y 24 N This Small Business Technology
STTR Phase II: Automation
of the Crosscut Operation in
a Wood Processing Mill 500,000 N N 24 Y This Small Business Technology
STTR Phase II: Vertical-
Cavity Surface-Emitting
Laser Based on
Nanostructured Active
Material 500,000 N N 24 N This Small Business Technology
STTR Phase II: Solid
Freeform Fabrication Based
Dental Reconstruction 499,012 N N 24 N This Small Business Technology
This Small Business Technology Transfer (STTR) Phase II project aims to build a prototype of a rapid-deployment, three-dimensional (3-D
This Small Business Technology Transfer (STTR) Phase II project will develop an automated means for embroidery design specification fo
This Small Business Technology Transfer (STTR) Phase II project aims to develop advanced contrast agents for magnetic resonance ima
This Small Business Technology Transfer (STTR) Phase II project is to design and develop a fully automated system for crosscutting plank
This Small Business Technology Transfer (STTR) Phase II project will develop a vertical cavity surface emitting laser (VCSEL) that operate
This Small Business Technology Transfer Phase II project will develop and optimize the Rapid Freeze Prototyping (RFP) technology
d-deployment, three-dimensional (3-D), seismic reflection system for near-surface exploration. Although the 3-D seismic reflection method en
or embroidery design specification for use in the textile industry. This technology will provide simplified mechanisms for converting scanned
t agents for magnetic resonance imaging diagnostics. In Phase I dramatically improved contrast agents based on carbon nanospheres were
omated system for crosscutting planks of lumber into parts with specific length and surface characteristic requirements. This system consists
e emitting laser (VCSEL) that operates at 1.3 micron wavelength based on incorporating a quantum dot active region of GaAs-based InAs an
eeze Prototyping (RFP) technology, producing ice patterns used in investment casting to fabricate dental castings for crowns, bridges, imp
the 3-D seismic reflection method enjoys tremendous
mechanisms for converting scanned artwork into hig
based on carbon nanospheres were demonstrated. The resea
c requirements. This system consists of a scanning
active region of GaAs-based InAs and GaAsSb. It is ba
ntal castings for crowns, bridges, implant-retai
Socially and
Economically
Disadvantage Principal Principal
d Small Investor Investor
Company Business Women First Name Last Name Employees Title Award Info
STTR PHASE II: Nuclear-
Magnetic Resonance
(NMR) Properties of
Luna Carbon Nanomaterials for
Innovations, Inc. N Y Stephen Stevenson 158 Medical Applications Award Info
