Clemson University

300 Brackett Hall
Clemson, SC 29634

Corporate Partners

Faculty & Staff

Name Awards Latest
Impact Technologies, LLC
Rochester, NY
1 06/28/10
Nanoscale Materials, Inc.
Manhattan, KS
2 08/02/12
Lumany, LLC
Newport Beach, CA
2 07/16/14
Advanced Photonic Crystals LLC
Fort Mill, SC
2 04/25/11
Kigre, Inc.
Hilton Head, SC
1 04/12/04
Hexatech
Raleigh, NC
1 01/01/02
ADVANCED THERMAL TECHNOLOGIES
Upton, MA
1 01/01/09
Lumany
Costa Mesa, CA
1 01/01/14
Foster-miller, Inc.
Waltham, MA
1 09/24/03
EIC Laboratories, Inc.
NORWOOD, MA
1 09/02/03
Nanoscale Corporation
Manhattan, KS
1 01/01/10
Anomalee Inc
State College, PA
1 09/28/15
Kiara Networks
Albuquerque, NM
1 08/25/05
Accurate Automation Corp.
Chattanooga, TN
1 06/13/11
3F, LLC
Raleigh, NC
1 01/01/10
Luminit, LLC
Torrance, CA
1 06/29/09
Triton Systems, Inc.
Chelmsford, MA
3 12/05/01
International Frontier Science Organizat
San Francisco, CA
1 09/02/03
Aspen Systems, Inc.
Marlborough, MA
1 07/10/04
Thermoanalytics, Inc.
Calumet, MI
1 07/11/07
Space Micro, Inc.
San Diego, CA
2 01/01/06
Solidica, Inc.
Ann Arbor, MI
2 01/01/06
Freight Farms, Inc.
Boston, MA
1 06/10/16
Corvid Technologies, Inc.
Mooresville, NC
1 05/15/14
Luna Innovations, Inc.
Roanoke, VA
1 07/01/03
Touchstone Research Laboratory, Ltd.
Triadelphia, WV
2 06/13/03
Materials Sciences Corp.
Horsham, PA
3 08/15/05
ENGINEERED MARINE COATINGS, INC.
Mount Pleasant, SC
1 07/01/17

38 Awards Won

Phase 1 STTR

Firm: ENGINEERED MARINE COATINGS, INC.

Institution: Clemson University

Agency: National Science Foundation
Topic: MI
Budget: 07/01/17 - 12/31/17

This Small Business Innovation Research Phase I project will develop an environmentally benign yet highly effective marine antifouling coating for the American yacht market. The coating is a non-biocidal, foul release surface which does not require the vessel to move to obtain antifouling protection. It is a non-ablative multi-modal coating that...

Phase 1 STTR

Firm: Freight Farms, Inc.

Institution: Clemson University

Agency: National Aeronautics and Space Administration
Topic: T6.04
Budget: 06/10/16 - 06/09/17

NASA's goals to explore deep space through manned missions requires development of self-sustaining life support systems. A diverse team from Freight Farms, Inc. have partnered with Clemson University to merge knowledge of sustainable farming with engineering expertise to create off-grid infrastructure for self-sustaining plant life that will ass...

Phase 1 STTR

Firm: Anomalee Inc

Institution: Clemson University

Agency: Defense Threat Reduction Agency
Topic: DTRA14B-003
Budget: 09/28/15 - 04/27/16

Objectives and Intellectual Merit: The infrastructure of modern civilization is a set of complex systems1 that dynamically interact across multiple layers of abstraction. Researchers from many disciplines2 are designing analytical tools for predicting the global and local behaviors of these complicated, multi-layer networks. Easily usable, avail...

Phase 2 STTR

Firm: Lumany, LLC

Institution: Clemson University

Agency: Navy
Topic: N13A-T023
Budget: 07/16/14 - 01/16/16
PI: Paul Rudy

To address the Navy s need for a solid state fundamental mode green laser for ocean mine detection, Lumany is proposing a compact, high efficiency, diode pumped solid state, q-switched laser based on novel laser diode pumps and a unique solid state crystal with excellent with energy storage properties for high peak power, short pulsed green lasi...

Phase 1 STTR

Firm: Corvid Technologies, Inc.

Institution: Clemson University

Agency: Air Force
Topic: AF13-AT12
Budget: 05/15/14 - 11/30/14

ABSTRACT: Corvid Technologies, in partnership with Clemson University s combustion modeling group, is pleased to offer a physical sub-model evaluation and development plan for turbulent combustion applications relevant to the Air Force. We will leverage the computational resources and combustion modeling expertise from both parties to evaluate t...

Phase 1 STTR

Firm: Lumany

Institution: Clemson University

Agency: National Science Foundation
Topic: EI-2013
Budget: 01/01/14 - 12/31/14
PI: Paul Rudy

This Small Business Technology Transfer (STTR) Phase I project will develop world?s first commercial diode pumped mode-locked titanium sapphire fiber laser based on visible laser diodes pumping a titanium sapphire fiber. By using direct semiconductor laser diode pumps as the engine, and fiber as the gain medium, this two stage fiber laser design...

Phase 1 STTR

Firm: Lumany, LLC

Institution: Clemson University

Agency: Navy
Topic: N13A-T023
Budget: 07/01/13 - 04/30/14
PI: Paul Rudy

To address the Navy s need for a solid state fundamental mode green laser for ocean mine detection, Lumany is proposing a compact, high efficiency, diode pumped solid state, q-switched laser based on novel laser diode pumps and a unique solid state crystal with excellent energy storage properties for high peak power, short pulsed green lasing ou...

Phase 2 STTR

Firm: Nanoscale Materials, Inc.

Institution: Clemson University

Agency: Army
Topic: A10A-T003
Budget: 08/02/12 - 07/31/13

The proposed research incorporates several inventions to produce structural components that are assembled into a highly enhanced Toxic Material Forensic Container (TMFC) for transport and storage of contaminated articles. Bio-hazardous materials are frequently encountered in investigations, and the current evidence containers are designed to ha...

Phase 1 STTR

Firm: Accurate Automation Corp.

Institution: Clemson University

Agency: Missile Defense Agency
Topic: MDA10-T001
Budget: 06/13/11 - 12/13/11

Accurate Automation Corporation will develop a carbon nanotube based microstrip plasma limiter suitable for inclusion on RF printed circuit boards used on the front-end of an X-Band phased-array receiver. This device will capitalize on the ability to use carbon nanotubes to reduce the size and cost of an RF limiter while dramatically increasing ...

Phase 1 STTR

Firm: Advanced Photonic Crystals LLC

Institution: Clemson University

Agency: Air Force
Topic: AF10-BT28
Budget: 04/25/11 - 01/25/12

ABSTRACT: This Small Business Technology Transfer Phase I project will address the problem of obtaining low-defect-density gallium nitride single crystals for substrates to enable low-defect, high-performance epitaxial growth. Gallium nitride is a very promising material for numerous applications including surface acoustic wave devices, high-pow...

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