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Nanotechnology is an essentially modern scientific field that is constantly evolving as commercial andacademic interest continues to increase and as new research is presented to the scientific community. The field’s simplest roots can be traced, albeit arguably, to 1959 but its primary developmentoccurred in both the eighties and the early nineties. In addition to specific scientific achievements such as the invention of theSTM, this early history is most importantly reflected in the initial vision of molecular manufacturing as it is outlined inthree important works. Overall, an understanding of development and the criticism of this vision is integral for comprehending therealities and potential of nanotechnology today.
"But I am not afraid to consider the final question as to whether, ultimately---in the great future---we can arrange theatoms the way we want; the very atoms, all the way down!" -Richard Feynman, There's Plenty of Room at the Bottom
The first time the idea of nanotechnology was introduced was in 1959, when Richard Feynman, a physicist at Caltech,gave a talk called "There's Plenty of Room at the Bottom." Though he never explicitly mentioned "nanotechnology," Feynman suggested that itwill eventually be possible to precisely manipulate atoms and molecules. Moreover, in an even more radical proposition, he thoughtthat, in principle, it was possible to create "nano-scale" machines, through a cascade of billions of factories. According to thephysicist, these factories would be progressively smaller scaled versions of machine hands and tools. He proposed that these tiny"machine shops" would then eventually be able to create billions of tinier factories.[1]In these speculations, he also suggested that there are various factors, which uniquely affect the nano-scalelevel. Specifically, he suggested that as the scale got smaller and smaller, gravity would become more negligible, while both Van DerWaals attraction and surface tension would become very important. In the end, Feynman's talk has been viewed as the first academic talkthat dealt with a main tenet of nanotechnology, the direct manipulation of individual atoms (molecular manufacturing).[2]
"The revolutionary Feynman vision launched the global nanotechnology race."-Eric Drexler
Hence, long before STMs and atomic force microscopes were invented Feynman proposed these revolutionary ideasto his peers. As demonstrated in his quote (above), he chose to deal with a "final question" that wasn't fully realized till the eightiesand nineties. Ultimately then, it was during these two decades, when the term "nanotechnology" was coined and researchers, starting withEric Drexler, built up this field from the foundation that Feynman constructed in 1959. However, some such as Chris Toumey minimize theimportance of Feynman in the establishment of the intellectual groundwork for nanotechnology.[3]Instead, using evidence from its citation history, Toumey sees "There's Plenty of Room at the Bottom"as a "founding myth" that served only to directly influence Drexler rather than the other important scientists, who affected the futuredevelopment of nanotechnology. Nevertheless, though the ultimate effect of Feynman's talk is debatable, it is certain that this workdirectly influenced Drexler's own research, which thus indirectly influenced nanotechnology as a whole.
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