Communications

Zero-Power Bathythermograph Sensors
available technology

Zero-Power Bathythermograph Sensors

The Zero Power Ballast Control (ZPBC) is a technology that relies on microbial energy harvesting developments to enable unsupervised underwater sensing with subsequent surfacing and reporting capabilities. With an ultimate goal of producing simple, small, power- efficient data harvesting nodes with...
Zirconium-Aluminum-Hydride Nanoparticles
available technology

Zirconium-Aluminum-Hydride Nanoparticles

NRL has eliminated the formation of aluminum oxide coating, the impediment associated with burn kinetics for metal-Al Hydride nano-scale particles. NRL Investigators have developed a method for producing stabilized Zr-Al Hydride nano-scale particles with carbohydrate based gel coatings that are air...
Zirconium-Aluminum-Hydride Nanoparticles
available technology

Zirconium-Aluminum-Hydride Nanoparticles

NRL has eliminated the formation of aluminum oxide coating, the impediment associated with burn kinetics for metal-Al Hydride nano-scale particles. NRL Investigators have developed a method for producing stabilized Zr-Al Hydride nano-scale particles with carbohydrate based gel coatings that are air...
Zirconium-Aluminum-Hydride Nanoparticles
available technology

Zirconium-Aluminum-Hydride Nanoparticles

NRL has eliminated the formation of aluminum oxide coating, the impediment associated with burn kinetics for metal-Al Hydride nano-scale particles. NRL Investigators have developed a method for producing stabilized Zr-Al Hydride nano-scale particles with carbohydrate based gel coatings that are air...

Pages