Award Data

Accurate simulation of nuclear power plant behavior is necessary for both engineering and training applications. An engineering grade simulator, used for design, safety analysis and operations, is characterized by high fidelity, computational power, lack of real-time capability, and user non-interactive environment. By contrast, a training grade simulator, used for operator training and education, ...

Tall towers and foundations for modern offshore and land-based wind turbines are too large to transport over roads or rail due to their extremely large dimensions. Existing “one-off” on-site construction methods are too expensive, and are too slow for manufacturing foundations and towers in the large numbers needed, especially for offshore components manufactured in ports with limited lay-down ...

High-radiation environments such as the Large Hadron Collider, (LHC) need components which are rad hard to a level of hundreds of Mrad. In addition, because the LHC will receive a high luminosity (HL) upgrade, the data produced will need to be transmitted at the rate of 10’s to 100’s of Tbps. In addition, the solution needs to be low mass. This will be accomplished using an array-able rad hard ...

Signature Research, Inc. (SGR) and Michigan Technological University (MTU) propose a Phase I STTR effort to develop a learning algorithm which exploits the spatio-spectral characteristics inherent within IR imagery and motion imagery.Our archive of modelled and labeled data sets will allow our team to thoroughly capture the variable elements that will drive machine learning performance.The overall ...

Currently the chemical composition of atmospheric particulate matter is measured either by off-line analyses of time-integrated filter samples, or by in-situ instruments requiring near-constant operator oversight. These measurement approaches result in sparse or limited data coverage. Despite the critical role of composition on the health and environmental impacts of particulate matter, there exis ...

Nanotechnology has yet to live up to its promise of exploiting properties which emerge at the nanoscale because of the lack of manufacturing precision to control the nanoscale dimensions, thus denying society many energy saving materials and applications. This project targets a key component of an Atomically Precise Manufacturing system: a high-speed sub-nm-precision manufacturing platform for ato ...

Sn-doped In2O3 (ITO) is the industry standard and most widely used transparent conducting electrode (TCE) because of its good electrical and optical properties. However, ITO has a number of disadvantages: ITO is not a suitable TCE for next-generation, high-efficiency, flexible OLEDs, because of its inappropriate work function, difficulty in creating desired patterns, low stability, delaminantion d ...

The discovery of large shale gas reserves in recent years has resulted in the reduction of natural gas price and a need to develop new applications for the available resource. Upgrading shale gas to liquid fuels which are more easily transportable and have greater economic value can result in significant benefits to the US. Coupled with this challenging problem the DOE has a goal of further develo ...

The power output of the high power lasers used in physics research is limited by the materials available for making the gain media in the laser. Future increases in power will require new and better materials. Operation at high power creates great thermal stresses that can lead to effects such as birefringence, thermal lensing or even physical fracture damage to the host itself. Effective cooling ...

Currently, indium tin oxide (ITO) is used as the transparent conductive anode in all commercial organic light emitting diodes (OLEDs). However, ITO has economic and technological limitations for OLEDs such as high cost, brittleness, and poor performance. The primary objective of this Small Business Technology Transfer (STTR) Phase I proposal is to demonstrate the microfluidic printing of substrate ...