The world faces unprecedented global challenges related to depleting natural resources, pollution,climate change, clean water, and poverty. These problems are directly linked to the physical characteristicsof our current technology base for producing energy and material products. Deep and pervasive changesin this technology base can address these global problems at their most fundamental, physical level,by changing both the products and the means of production used by 21st century civilization. The key development is advanced, atomically precise manufacturing (APM). This report examines the potential for nanotechnology to enable deeply transformative productiontechnologies that can be developed through a series of advances that build on current nanotechnologyresearch. The report has five sections: 1. Nanotechnology and global challenge The first section discusses the basics of advanced, atomically precise nanotechnology andexplains how current and future solutions can help address global challenges. Key conceptsare presented and different kinds of nanotechnology are discussed and compared. 2. The birth of Nanotechnology The second section discusses the development of nanotechnology, from the first vision fifty years ago, expanding via a scientific approach to atomically precise manufacturing thirty years ago, initial demonstrations of principle twenty years ago, to the last decade of of accelerating success in developing key enabling technologies. The important role of emerging countries is discussed, with China as a leading example, together with an overview of the contrast between the promise and the results to date. 3. Delivery of transformative nanotechnologies Here the different aspects of APM that are needed to enable breakthrough advances in productive technologies are discussed. The necessary technology base can be developedthrough a series of coordinated advances along strategically chosen lines of research. 4. Accelerating progress toward advanced nanotechnologies This section discusses research initiatives that can enable and support advanced nanotechnology, on paths leading to APM, including integrated cross-disciplinary research and Identification of high-value applications and their requirements. 5. Possible next steps The final section provides a short summary of the opportunities and the possibilities to address institutional challenges of planning, resource allocation, evaluation, transparency,and collaboration as nanotechnology moves into its next phase of development:nanosystems engineering.

The NIOSH Nanotechnology Research Center (NTRC) was established in 2004 to develop, coordinate, and deliver an organized program of research to identify, investigate, and develop science-based solutions to workplace health and safety knowledge gaps in nanotechnology. This is a progress report. The NTRC provides overall strategic direction and coordination of the NIOSH nanotechnology cross-sector research program (http://www. cdc.gov/niosh/topics/nanotech/). The responsibilities of the NTRC are in accordance with the legislative mandate issued to NIOSH in Section 20(a) (4) of the Occupational Safety and Health Act of 1970, which states: "...conduct special research, experiments, and demonstrations relating to occupational safety and health as are necessary to explore new problems, including those created by new technology in occupational safety and health, which may require ameliorative action beyond that which is otherwise provided for in the operating provisions of this Act." Nanotechnology is a rapidly emerging material science technology that has been identified as a critical U.S. scientific and commercial enterprise with global economic benefits. Concern over the lack of knowledge about the potential health risks associated with the handling of pure, unbound engineered nanomaterials has been expressed by investors, entrepreneurs, government agencies, and public health advocacy groups. Such concerns create potential barriers to the growth of nanotechnology and the commercialization of products and devices that could help address serious global problems concerning energy, transportation, pollution, health, and food. Issues that have been raised about worker health and safety must be addressed to ensure responsible development, societal benefit, and associated economic growth.