Award Data

The Small Business Technology Transfer Research (STTR) Phase I project aims at developing a heat exchanger technology utilizing a homogeneous nano-porous surface (NPS) that will significantly increase the efficiency of the boiling process. The NPS technology offers considerable enhancement in boiling heat transfer capabilities for small- to large-size heat generating facilities, power plants, and ...

This STTR Phase II project is to develop and commercialize copper nanofluids for heat transfer enhancement applications. The low cost nanoparticle production methods developed will produce quality nanoparticles for this application. Success of this STTR project will benefit a wide range of applications for heat transfer enhancement including: electronics, HVAC, transportation, textile and paper m ...

This Small Business Technology Transfer (STTR) Phase I project is focused on the development of a unique diamond carbon coated graphite-copper composite material. The composite material will be used to produce low thermal resistance packaging components for use in RF power amplifiers. Under the Phase I effort, a low-cost diamond carbon coating process will be demonstrated. There is a critical need ...

This Small Business Innovation Research (SBIR) Phase II project seeks to develop an unique hot press die casting technology to be used to produce graphite-metal materials. These materials will be used to produce packaging components for use in high power electronics packaging. There is a critical need for advanced materials with improved thermal properties capable of meeting the thermal management ...

Accurate forecasts of infrared satellite imagery are needed to optimize tasking of valuable and limited space borne surveillance assets. Atmospheric constituents such as clouds, aerosols, and water vapor can negatively impact the ability of IR surveillance systems to monitor activities on the ground. Due to their chaotic nature, atmospheric impacts are particularly severe for applications that r ...

In this program, Agiltron and the group of Professor D. W. Wang at Boston College propose a novel nano-porous coating for next generation MDA IR anti-reflection (AR) coatings for detectors and optics. The collaborative research leverages recent progress in nano-material development at Boston College, and Agiltron’s recently developed nano-coating processes. The proposed IR AR coatings will posse ...

Based upon the successful dual-band MWIR/LWIR imaging results demonstrated with our uncooled photomechanical imaging technology in Phase I, Agiltron proposes a high-performance uncooled dual-band imager for the IRST sensors used in the ABL Wide Area Surveillance System (WASS) in Phase II. To meet the needs of the MDA, the proposed imager will feature simultaneous dual-band MWIR/LWIR operation for ...

Agiltron proposes an innovative resonant fiber optic gyro (RFOG) based on air-core optical fiber achieving high performance, compact size, lightweight and low fabrication cost. The proposed gyro uniquely combines the advantages of high finesse of a ring laser gyro (RLG) and the advantages of long optical path and miniature package of interferometer fiber optic gyro (IFOG). Critically, the utilizat ...

This Small Business Innovation Research (SBIR) Phase I project addresses a method to achieve low-cost, high performance multiple-layer organic light emitting devices (OLEDs) by solution process. OLED is emerging as a next-generation display and lighting technology, they have a number of intrinsic advantages over liquid crystal displays including brighter and clearer displays, large viewing angles, ...

This SBIR Phase I research project will develop an innovative carbon nanotube water filtration membrane technology that will drastically outperform conventional filtration membranes. This project aims to improve performance by fabricating an ultra-high flux carbon nanotube filtration membrane through a solution-based material preparation technology. The goal of the carbon nanotube filtration mem ...