The Space Technology Hall of Fame® comprises many extraordinary innovations - all derived from or significantly improved by space research or exploration. Learn about the inducted technologies and the innovators here. You can scroll through all the years or find something specific using the handy search bar above. To nominate a technology, please visit our Nominate a Technology page to learn more about the Space Technology Hall of Fame® selection criteria.
Communication devices, such as smart phones and radios, rely on electromagnetic spectrum, particularly the “S-band” portion to transmit data. Given the growing use of these technologies, the S-band has become congested with many users. This is a challenge for space missions especially given the huge amounts of data that must be rapidly delivered to Earth from satellites, spacecraft or the…
Long stays in space, such as on the ISS, take a toll on the human body, as muscles atrophy and bones weaken and lose minerals. Astronauts have long used exercise equipment to help mitigate the effects of microgravity on their bodies. But as NASA astronaut Shannon Lucid found in 1996 after a six-month stay on the Mir space station, the station’s stationary bike and treadmill were insufficient to…
Light weight alloy technology with proven durability, longevity and reduced environmental impact In 1993, the Partnership for Next-Generation Vehicles (PNGV) brought together federal laboratories, universities, automakers and other industry partners, with the common goal of increasing automotive fuel efficiency and reducing environmental impact.
Reliable and affordable Laser Communication technology connecting the world There is an increasing worldwide demand for internet access to connect all aspects of our modern society. Miniaturized Laser Terminals for aircraft, UAVs and satellites can provide backbone connectivity for such access in a reliable and affordable way.
ActivePure devices have been installed in facilities where there is high risk for contaminates; schools, hospitals, restaurants and even several Major League Baseball teams’ locker facilities.
Florikan® CEO Ed Rosenthal noticed one of his clients struggle to get fertilizer to mix into a water solution for easier application. This inspired Rosenthal to develop a new method, allowing easier and more accurate fertilizer application.
Like so many prized finds, this discovery was unexpected. While at NASA Langley developing materials for high-speed civil transport and lightweight rocket bodies, Dr. Robert Bryant noticed that an experimental polymer that should have turned into a powder instead remained soluble. Others repeated his experiment with the same results.
Dr. Alain Gachet founded Radar Technologies International in 1999 to use satellite generated remote-sensing data to identify probable locations of precious metals. Analyzing satellite data in pursuit of precious metals in the Libyan Desert, Dr. Gachet made a surprising discovery.
In the late 1990’s, NASA approached the German Space Agency (DLR) to develop technology to measure the precise eye movements of astronauts aboard the Space Shuttle.