Ames Laboratory, located in Ames, Iowa, is a U.S. Department of Energy National Laboratory operated by Iowa State University for the purpose of advancing science and engineering research to solve challenging problems in energy, national security and industrial sectors. Founded in 1947 as part of the Manhattan Project during World War II, Ames Laboratory was initially funded by the Atomic Energy Commission to conduct basic nuclear research. Since then it has grown into an internationally renowned laboratory with more than 400 employees conducting interdisciplinary work that ranges from materials science and chemistry to physics and mathematics.
The lab’s primary mission is to develop new technologies that can benefit society through improving energy efficiency or reducing environmental impacts while creating economic opportunities for industry partners across the United States. In recent years its focus has increasingly shifted towards developing clean energy sources such as solar power, wind turbines and biofuels while maintaining its commitment to excellence in fundamental scientific research on topics ranging from high-temperature superconductivity to nanomaterials development.
In addition to its core activities at Ames Lab’s main campus in Ames, IA, it also operates several satellite facilities throughout the state including The Center for Nondestructive Evaluation (CNDE), which focuses on advanced nondestructive evaluation methods; The Materials Preparation Center (MPC), which offers expertise on physical metallurgy; The Industrial Transformation Institute (ITI) which conducts applied research related specifically toward manufacturing processes; And The Environmental Molecular Sciences Facility (EMSF) which provides researchers access to sophisticated instrumentation dedicated exclusively toward environmental studies involving molecular level interactions between living systems components and their environment..
Ames Research Center is committed not only carrying out cutting edge scientific discovery but also educating future generations of scientists through outreach programs such as internships with local universities or summer camps designed specifically for middle schoolers interested learning more about STEM fields like materials science or computer programming languages like Python or Java.. It provides a platform where students are able make meaningful contributions right away under guidance of experienced professionals while still attending classes at their home institution enabling them gain valuable experience they wouldn’t otherwise attain just sitting inside classroom all day long..
Finally because this type work requires large investments resources most often provided taxpayers money makes sure results produced have direct tangible benefits public trough constant collaboration private sector organizations evaluate potential applications technology developed within walls facility itself before even being released outside world thus ensuring every penny spent goes good use ultimately serve common goal betterment society whole!