Award Data

Many important technology challenges today such as the capacity and life time of batteries require new characterization techniques to understand and improve performance. In the STTR Phase II project, novel x-ray microscope techniques and software are developed to be able to image samples in three dimensions and determine chemical composition and function on a microscopic level. As known from ubi ...

Infrared spectroscopy is the most widely used technique for chemical characterization with a worldwide market of over $1B annually. Conventional infrared spectroscopy suffers, however, from fundamental spatial resolution limits that prohibit its application at the nanoscale. This has prevented widespread use of IR spectroscopy in the growing field of nanoscale materials. The atomic force microsc ...

Current state-of-the-art SRF accelerating cavities require the use of many complex and expensive techniques throughout their fabrication/performance cycle. This project will utilize a novel Additive Manufacturing (AM) process to produce nearly monolithic SRF niobium cavities of arbitrary shape with features such as optimized wall thickness and/or integrated stiffeners, greatly reducing the cost a ...

The economical use of hydrogen as a transportation and stationary power fuel remains a long-term DOE objective. Energy storage applications in Europe such as wind capture and improved biogas conversion efficiency are also driving significant interest in hydrogen production from renewable sources. New and efficient catalytic processes for hydrogen generation are therefore needed to achieve produc ...

The DOEs & quot;Monitoring Verification and Accounting (MVA) program goal is to confirm permanent storage of CO2 in geologic formations by real-time monitoring should CO2 leak. Remote technologies, effective for atmospheric or above ground CO2 monitoring, are ineffective for subsurface, and it is where leakage can be detected first. By the time leaked CO2 slowly appears on the surface, CO2 may hav ...

Small Modular Reactors (SMRs) are one of the most compelling options for meeting the growing clean energy demands of the U.S. While safer and costing less to build and operate than their conventional counterparts, the unique requirements of SMRs pose significant challenges to the maintenance of their I & amp;C systems, especially due to the likelihood of fewer process sensors. Lacking the sensor ...

The feasibility for fusion as a practical energy source needs to be enhanced significantly by removing some of the restrictions that low-temperature superconductors put on the fusion magnet systems. This can be done by using high-temperature superconductors, allowing for much larger temperature margins, a higher magnet performance and less mechanical degradation during operation. There are curren ...

The demands of the solar energy market require the development of advanced photovoltaic technologies. The DOE is seeking to develop organic PV technologies that are more efficient, long lasting and cost competitive to traditional ones. Organic PV (OPVs) have become well recognizedas an important candidate for future solar power products, although their efficiency is not exceeding 6-7%. The overal ...

We need transformational manufacturing technologies for fabrication of nanomaterials for manufacturing batteries and capacitors that will have a huge impact on improving the energy and power density of batteries and capacitors for transportation, energy storage and consumer electronics applications. Development of novel nanomaterials with high energy and power capability and a novel, nontraditiona ...

Although carbon capture and storage (CCS) technology has received the most attention for its potential to reduce emissions, processes that convert CO2 into a useful product can provide a positive return on investment and not just be an unrecoverable cost. Compared to CCS technology, the potential revenue generated by the use of CO2-based product is likely to grow popular with time while reducing ...