It is anticipated that the biofuels industry will have a dramatic impact on our lives, much like the petroleum industry. Alternative fuels from renewable cellulosic biomass— plant stalks, trunks, stems, and leaves—are expected to significantly reduce U.S. dependence on imported oil while enhancing national energy security and decreasing the environmental impacts of energy use. Research is currently focused on accelerating the environmental and commercial viability of biofuel production.
The University of Tennessee’s Arthur Ragauskas is one of the notable scientists who are redefining the frontiers of bioenergy research in the quest for an economically feasible and sustainable biofuel industry.
OSTI's mission is to advance science and sustain technological creativity by making R&D findings available and useful to DOE researchers and the public. As part of this commitment to America’s science and technology future, we strive to place information in consumers’ hands, specifically, at their fingertips. Rapidly changing technology and increasing demands from smartphone-toting consumers drive new paths to DOE research using new social media tools.
DOE supports the use of social media as an avenue to uphold “open government principles of transparency, participation and collaboration”, expand the conversation on energy issues, and communicate with the rising/next generation of researchers. OSTI regularly shares information through interactive and user-driven social media channels such as Twitter, Facebook, and Google+. OSTI makes social media posts not only about our scientific and technical information (STI) collections and search tools, but also retweets and shares STI-related posts from other DOE program offices and across the 17 DOE national laboratories.
This is not just a one-way exchange. Digital engagement creates value, not only as OSTI reaches out to users but as users link back to DOE R&D in OSTI’s electronic library. For example, the OSTI document Technology of mirror machines: LLL facilities for magnetic mirror fusion experiments became more visible via a link from a photo posted by Lawrence Livermore National Laboratory on Flickr, an image and video social media site. Links back to OSTI documents are found in many places on the Web because of our large collection of DOE...
The Department of Energy recently issued its latest Open Government Plan, and the document recognizes the DOE Office of Scientific and Technical Information (OSTI) for advancing open government and the principles of transparency, participation, and collaboration by making scientific and technical information (STI) publicly available.
Genomes of individual organisms and systems of organisms contain the information and operating capabilities that determine structure and function across multiple scales of biological organization. These complex systems hold the secrets of life. Because we do not yet have a full understanding of how a living system works, and how these organisms interact with and modify their environments, the Department of Energy’s (DOE) Genomic Science Program is working to achieve a predictive, system-level understanding of plants, microbes, and biological communities. This program is providing the foundational knowledge underlying biological approaches to producing biofuels, sequestering carbon in terrestrial ecosystems, and cleaning up contaminated environments.
The National Library of EnergyBeta (NLEBeta), a gateway to information across the U.S. Department of Energy (DOE), is taking on an expanded role in providing access to DOE scientific and technical information (STI) with the retirement of the federated search product Science Accelerator. In addition, the NLEBeta, launched in February 2013, has a redesigned home page and new features that makes it easier to use than ever.
Developed by DOE’s Office of Scientific and Technical Information (OSTI), the NLEBeta search tool makes it easy for American citizens to find and access information about the Department from across the DOE complex nationwide, without knowing DOE’s organizational structure.