Productive nanosystems
The Technology Roadmap for Productive Nanosystems defines "productive nanosystems" as functional nanoscale systems that make atomically-specified structures and devices under programmatic control, i.e., they perform atomically precise manufacturing. Such devices are currently only hypothetical, and productive nanosystems represents a more advanced approach among several to perform Atomically Precise Manufacturing. A workshop on Integrated Nanosystems for Atomically Precise Manufacturing was held by the Dept. of Energy in 2015. Present-day technologies are limited in various ways. Large atomically precise structures (that is, virtually defect-free) do not exist. Complex 3D nanoscale structures exist in the form of folded linear molecules such as DNA origami and proteins. It is also possible to build very small atomically precise structures using scanning probe microscopy to construct molecules such as FeCO and Triangulene, or to perform hydrogen depassivation lithography. But it is not yet possible to combine components in a systematic way to build larger, more complex systems. Principles of physics and examples from nature both suggest that it will be possible to extend atomically precise fabrication to more complex products of larger size, involving a wider range of materials. An example of progress in this direction would be Christian Schafmeister's work on bis-peptides. Mihail Roco, one of the architects of the USA's National Nanotechnology Initiative, has proposed four states of nanotechnology that seem to parallel the technical progress of the Industrial Revolution, of which productive nanosystems is the most advanced.
- Passive nanostructures - nanoparticles and nanotubes that provide added strength, electrical and thermal conductivity, toughness, hydrophilic/phobic and/or other properties that emerge from their nanoscale structure.
- Active nanodevices - nanostructures that change states in order to transform energy, information, and/or to perform useful functions.