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High energy physics research, modern medicine and advanced materials are continually demanding stronger magnetic fields. Efforts to generate fields in excess of 25 Tesla have been a principal driver of High Temperature Superconductor research. Although HTS materials were discovered decades ago and have always shown significant potential for high field use, until recently magnets using the technolo ...

Nuclear fusion has great potential for supplying global energy needs with a clean, abundant energy source. Advanced superconducting magnets will be used to contain the plasma at the center of the reactor. To operate these magnets, new sensors are needed to monitor the superconductors in real-time to detect the signs that the superconductor may quench (lose superconducting properties), so that corr ...

In 2011, the US Department of Energy (DOE) launched the SunShot Initiative with the goal of making solar electricity cost-competitive with conventional power generation by 2020. Since 2011, research funded by the DOE has resulted in substantial progress toward meeting the aggressive SunShot performance and cost targets, but significant technical hurdles remain. In particular, the Gen3 CSP Roadmap ...

The DOE has identified a need for thin and durable proton conducting membranes that offer enhanced energy efficiency to power zero emission vehicles. Specifically, a cost effective hydrocarbon-based alternative to expensive commercial perfluorosulfonic acid ionomers are sought. Current hydrocarbon membranes do not meet the performance or durability needed in the conditions for transportation fuel ...

Perovskite-sensitized solar cells have demonstrated high conversion efficiencies however the stability of device is limited compared to common PV technologies. Moisture, UV irradiation, and high temperature triggered degradation limit their commercial viability; therefore, improved cell durability is necessary for perovskite solar cell market entry. In addition, the scale-up and optimization of th ...

Glass fiber is the most common reinforcement material for all polymer composites (a $43.93 billion dollar market in 2017), including all wind turbine blades of which it’s estimated there will be over 4.8 million tonnes of by 2050. However, there exists no economical method of handling these composites once they reach end of life, meaning they are all currently destined for the landfill. For wind ...

Ceramic matrix SiC-SiC composites are currently the leading candidate for Generation IV nuclear reactor fuel cladding and other structural components, due to their excellent thermal and chemical stability under extreme conditions. However, robustly joining SiC structures when exposed to such harsh operating conditions still presents a major roadblock. A novel bonding joint compound leveraging grap ...

Cherenkov radiation, caused by fast charged particles in a transparent medium, is widely used for charged particle identification. To date, gaseous, liquid, and solid radiators have been used as sources of Cherenkov radiation. Aerogels with low refractive index and high light transmittance, are highly desirable for Cherenkov detectors. Development and testing of aerogels with a refractive index as ...

The Department of Energy’s Office of Basic Energy Sciences has identified a need for new proton conducting membranes for solar fuel generator applications. Specifically, development of block copolymers with good proton conductivity at ambient temperatures and low gas diffusion and ionic transports are needed. There are currently no commercially available proton conducting membranes which possess ...

The separator is a critical component of the battery that impacts both performance and safety. Separator technology is lagging in innovation comparison to cathode/anode chemistries. Current SOTA polyolefin (PO) separator technology is an antique utilizing traditional materials and processes. Moreover, investments in separator development (ARRA & DOE) have been focused on improving the manufacturin ...