- News + Media
Developments in nanotechnology public engagement in the UK: ‘upstream’ towards sustainability?. Journal of Cleaner Production . 16, 1010-1013.(2008).
The Emergence and Diffusion of DNA Microarray Technology. Jenkins Collaboratory for New Technologies in Society. 1, 11.(2006).
Emerging Nanotechnologies and Life Cycle Regulation: An Investigation of Federal Regulatory Oversight from Nanomaterial Production to End of Life. Chemical Heritage Foundation. 1-63.(2010).
Energy Innovation at Nanoscale: Case Study of an Emergent Industry. Science Progress. 1-6.(2011).
Exploring early responses to geoengineering. Philosophical Transactions of the Royal Society (A). 307, 4176-4196.(2012).
Failure to Launch: Tarui Yasuo, the Quadrupole Transistor, and the Meanings of the IC in Postwar Japan. IEEE Annals of the History of Computing. 34, 48-59.(2012).
Finding news stories: A comparison of searches using LexisNexis and Google News. Journalism and Mass Communication Quarterly. 83, 515-530.(2008).
From Biotech to Nanotech: Public Debates about Technological Modification of Food. Environment and Society: Advances in Research. 2, 149-169.(2011).
From Cradle-to-Grave at the Nanoscale: Gaps in US Regulatory Oversight along the Nanomaterial Life Cycle. Environmental Science & Technology. 47, 5524-5534.(2013).
From lab to iPod: A Story of Discovery and Commercialization in the Post-Cold War Era. Technology and Culture. 50, 58-81.(2009).
From Material Science to Nanotechnology: Institutions, Communities, and Disciplines at Cornell University, 1960-2000. Historical Studies in Natural Sciences. 43, 121-161.(2013).
From the Ground Up: Developing an Interdisciplinary Course Focusing on Materials Science and Society in Green Technologies. Journal of Materials Education. 31, 251-264.(2009).
Geoengineering the Climate: The Social and Ethical Implications. Environment. 52, 24-37.(2010).
Globalization and De-globalization in Nanotechnology Research: The Role of China. Scientometrics. 93, 439-458.(2012).
Governance implications of nanomaterials companies’ inconsistent risk perceptions and safety practices. Journal of Nanoparticle Research. 14, 1-12.(2012).
Health and Safety Practices in the Nanotechnology Workplace: Results From an International Survey. Environmental Science and Technology. 42, 3155-3262.(2008).
Health Risk Assessment for Nanoparticles: A Case for Using Expert Judgment. Journal of Nanoparticle Research . 9, 137-156.(2007).
The hierarchy of environmental, health, and safety practices, in the US nanotechnology workplace. Journal of Occupational and Environmental Hygiene. 10, 487-495.(2013).
Horses for Courses: Risk Information and Decision Making in the Regulation of Nanomaterials. Journal of Nanoparticle Research . 13, 1477-1488.(2011).
How Did Semiconductor Firms Manage Technological Uncertainty?. La Revue d'Histoire Moderne at Contemporaine.(Forthcoming).
How I Learned to Stop Worrying and Love the Bomb, the Nuclear Reactor, the Computer, Ham Radio, and Recombinant DNA. Historical Studies in the Natural Sciences. 38, 451-461.(2008).
How Spintronics Went from the Lab to the iPod. Nature Nanotechnology. 4, 1-3.(2009).
The impact of toxicity testing costs on nanomaterial regulation. Environmental Science and Technology. 43, 3030-3034.(2009).