Editing Molecular assembler (section)

==Nanofactories==
A '''nanofactory''' is a proposed system in which [[nanomachines]] (resembling molecular assemblers, or industrial robot arms) would combine reactive molecules via [[mechanosynthesis]] to build larger atomically precise parts. These, in turn, would be assembled by positioning mechanisms of assorted sizes to build macroscopic (visible) but still atomically-precise products.

A typical nanofactory would fit in a desktop box, in the vision of [[K. Eric Drexler]] published in ''Nanosystems: Molecular Machinery, Manufacturing and Computation'' (1992), a notable work of "[[exploratory engineering]]". During the 1990s, others have extended the nanofactory concept, including an analysis of nanofactory convergent assembly by [[Ralph Merkle]], a systems design of a replicating nanofactory architecture by [[J. Storrs Hall]], [[Forrest Bishop|Forrest Bishop's]] "Universal Assembler", the patented exponential assembly process by [[Zyvex]], and a top-level systems design for a 'primitive nanofactory' by Chris Phoenix (director of research at the Center for Responsible Nanotechnology). All of these nanofactory designs (and more) are summarized in Chapter 4 of ''Kinematic Self-Replicating Machines'' (2004) by [[Robert Freitas]] and Ralph Merkle. The Nanofactory Collaboration,<ref>{{cite web|url=http://www.MolecularAssembler.com/Nanofactory|title=Nanofactory Collaboration}}</ref> founded by Freitas and Merkle in 2000, is a focused, ongoing effort involving 23 researchers from 10 organizations and 4 countries that is developing a practical research agenda<ref>{{cite web|url=http://www.MolecularAssembler.com/Nanofactory/Challenges.htm|title=Nanofactory Technical Challenges}}</ref> specifically aimed at positionally-controlled [[diamond]] mechanosynthesis and [[diamondoid]] nanofactory development.

In 2005, an animated short film of the nanofactory concept was produced by John Burch, in collaboration with Drexler. Such visions have been the subject of much debate, on several intellectual levels. No one has discovered an insurmountable problem with the underlying theories and no one has proved that the theories can be translated into practice. However, the debate continues, with some of it being summarized in the [[molecular nanotechnology]] article.

If nanofactories could be built, severe disruption to the [[world economy]] would be one of many possible negative impacts, though it could be argued that this disruption would have little negative effect, if everyone had such nanofactories. Great benefits also would be anticipated. Various works of [[science fiction]] have explored these and similar concepts. The potential for such devices was part of the mandate of a major UK study led by [[mechanical engineering]] professor Dame [[Ann Dowling]].