Doogab Yi
- Published in print:
- 2015
- Published Online:
- September 2015
- ISBN:
- 9780226143835
- eISBN:
- 9780226216119
- Item type:
- chapter
- Publisher:
- University of Chicago Press
- DOI:
- 10.7208/chicago/9780226216119.003.0005
- Subject:
- History, History of Science, Technology, and Medicine
Chapter 5 analyzes how academic institutions, government agencies, and the nascent biotechnology industry argued about the legal ownership of recombinant DNA technology in the name of the public ...
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Chapter 5 analyzes how academic institutions, government agencies, and the nascent biotechnology industry argued about the legal ownership of recombinant DNA technology in the name of the public interest. It further reconstructs how a small but influential group of government officials and university research administrators introduced a new framework for the commercialization of academic research by linking private ownership and the public interest.Less
Chapter 5 analyzes how academic institutions, government agencies, and the nascent biotechnology industry argued about the legal ownership of recombinant DNA technology in the name of the public interest. It further reconstructs how a small but influential group of government officials and university research administrators introduced a new framework for the commercialization of academic research by linking private ownership and the public interest.
Cyrus C. M. Mody
- Published in print:
- 2011
- Published Online:
- August 2013
- ISBN:
- 9780262134941
- eISBN:
- 9780262298186
- Item type:
- book
- Publisher:
- The MIT Press
- DOI:
- 10.7551/mitpress/9780262134941.001.0001
- Subject:
- Society and Culture, Technology and Society
The scanning tunnelling microscope (STM) has been hailed as the “key enabling discovery for nanotechnology,” the catalyst for a scientific field that attracts nearly USD 20 billion in funding each ...
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The scanning tunnelling microscope (STM) has been hailed as the “key enabling discovery for nanotechnology,” the catalyst for a scientific field that attracts nearly USD 20 billion in funding each year. This book argues that this technology-centric view does not explain how these microscopes helped to launch nanotechnology—and fails to acknowledge the agency of the microscopists in making the STM and its variants critically important tools. It also tells the story of the invention, spread, and commercialization of scanning probe microscopy in terms of the networked structures of collaboration and competition that came into being within a diverse, colorful, and sometimes fractious community of researchers. By forming a community, the book argues, these researchers were able to innovate rapidly, share the microscopes with a wide range of users, and generate prestige (including the 1986 Nobel Prize in Physics) and profit (as the technology found applications in industry). The author shows that both the technology of probe microscopy and the community model offered by the probe microscopists contributed to the development of political and scientific support for nanotechnology and the global funding initiatives which followed. In the course of his account, the author charts the shifts in U.S. science policy over the last 40 years—from the decline in federal basic research funding in the 1970s through the rise in academic patenting in the 1980s to the emergence of nanotechnology discourse in the 1990s—that have resulted in today’s increasing emphasis on the commercialization of academic research.Less
The scanning tunnelling microscope (STM) has been hailed as the “key enabling discovery for nanotechnology,” the catalyst for a scientific field that attracts nearly USD 20 billion in funding each year. This book argues that this technology-centric view does not explain how these microscopes helped to launch nanotechnology—and fails to acknowledge the agency of the microscopists in making the STM and its variants critically important tools. It also tells the story of the invention, spread, and commercialization of scanning probe microscopy in terms of the networked structures of collaboration and competition that came into being within a diverse, colorful, and sometimes fractious community of researchers. By forming a community, the book argues, these researchers were able to innovate rapidly, share the microscopes with a wide range of users, and generate prestige (including the 1986 Nobel Prize in Physics) and profit (as the technology found applications in industry). The author shows that both the technology of probe microscopy and the community model offered by the probe microscopists contributed to the development of political and scientific support for nanotechnology and the global funding initiatives which followed. In the course of his account, the author charts the shifts in U.S. science policy over the last 40 years—from the decline in federal basic research funding in the 1970s through the rise in academic patenting in the 1980s to the emergence of nanotechnology discourse in the 1990s—that have resulted in today’s increasing emphasis on the commercialization of academic research.
