Nano systems
The Technology Roadmap for Productive Nano systems defines "productive Nano systems" as functional nanometre-scale systems that make atomically-specified structures and devices under programmatic control, i.e. they perform manufacturing to atomic precision. Such devices are presently only hypothetical. Present-day technologies are limited in various ways. Large atomically precise structures exist, in the form of crystals. Complex 3D structures exist in the form of polymers such as DNA and proteins. It is also possible to build very small atomically precise structures using scanning probe microscopy to manipulate individual atoms or small groups of atoms. 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 bi-peptides
- Molecular Nanosystems
- Active Nanostructures
- Passive Nanostructures
- Molecular Machinery
- Nanoscale Structural Components
- Molecular Manufacturing Systems
Related Conference of Nano systems
9th International Conference on Nanomedicine and Nanotechnology
34th International Conference on Nanomedicine and Nanomaterials
41st International Conference on Advanced Nanotechnology & Nano Electronics
Nano systems Conference Speakers
Recommended Sessions
- Applications of Nanotechnology
- DNA nanotechnology
- Industrial Nanotechnology
- Nano biotechnology
- Nano fabrication and characterization
- Nano medicine
- Nano pharmaceutical chemistry
- Nano science
- Nano systems
- Nano-electronics and devices
- Nano-robotics
- Nanomaterials and applications
- Nanotechnology and tissue Engineering
- Nanotechnology for Environment and Nano-safety
Related Journals
Are you interested in
- 2D Materials in Nano Electronics: Beyond Graphene - Advanced Nano 2026 (France)
- Advanced Nano Fabrication, Lithography & Patterning Technologies - Advanced Nano 2026 (France)
- Advanced Nanomaterials - Nanomaterials 2026 (UK)
- Advanced Nanomaterials & Functional Surfaces - Nano 2026 (UK)
- AI-Integrated Nanotechnology & Future Systems - Nano 2026 (UK)
- Applications of Nanomaterials - Nanomaterials 2026 (UK)
- Applications of Nanotechnology - Nanomaterials 2026 (UK)
- Artificial Intelligence for Nano Design & Characterization - Advanced Nano 2026 (France)
- Bio-Nanotechnology & Molecular Engineering - Nano 2026 (UK)
- Bio-Nanotechnology & Nano Interfaces with Living Systems - Advanced Nano 2026 (France)
- Biomedical Nanomaterials - Nanomaterials 2026 (UK)
- Carbon Nanotube & Nanowire Electronics for Ultra-Dense Circuits - Advanced Nano 2026 (France)
- Carbon Nanotubes & Graphene Innovations - Nano 2026 (UK)
- Characterization & Properties of Nanomaterials - Nanomaterials 2026 (UK)
- Energy Nanotechnology & Storage Solutions - Nano 2026 (UK)
- Environmental Nanotechnology & Remediation - Nano 2026 (UK)
- Future Trends in Nano Electronics & Industry Translation - Advanced Nano 2026 (France)
- High-Performance Nano-MEMS & Nano-Actuators - Advanced Nano 2026 (France)
- Materiomics - Nanomaterials 2026 (UK)
- Nano Devices & Systems - Nanomaterials 2026 (UK)
- Nano Electronics for 5G, 6G & Next-Gen Communication Networks - Advanced Nano 2026 (France)
- Nano Electronics Security, Privacy & Anti-Tamper Technologies - Advanced Nano 2026 (France)
- Nano Robotics & Molecular-Scale Machines - Advanced Nano 2026 (France)
- Nano Sensors, Nano Biosensors & Ultra-Sensitive Detection - Advanced Nano 2026 (France)
- Nano-Coatings & Surface Modification - Nano 2026 (UK)
- Nano-Electronics & Quantum Devices - Nano 2026 (UK)
- Nano-Enabled Energy Harvesting and Storage Systems - Advanced Nano 2026 (France)
- Nano-Enabled Flexible, Stretchable & Wearable Electronics - Advanced Nano 2026 (France)
- Nano-Medicine & Targeted Drug Delivery - Nano 2026 (UK)
- Nano-Robotics & Intelligent Systems - Nano 2026 (UK)
- Nano-Sensors & Smart Diagnostics - Nano 2026 (UK)
- Nanocosmetics - Nanomaterials 2026 (UK)
- Nanoelectronic Devices - Nanomaterials 2026 (UK)
- Nanofabrication & Nanoscale Engineering - Nano 2026 (UK)
- Nanomaterial Safety & Regulatory Affairs - Nanomaterials 2026 (UK)
- Nanomedical Devices - Nanomaterials 2026 (UK)
- Nanoparticles - Nanomaterials 2026 (UK)
- Nanophotonics & Optoelectronic Applications - Nano 2026 (UK)
- Nanophotonics, Plasmonics & Light-Manipulating Nano Devices - Advanced Nano 2026 (France)
- Nanoscale Materials - Nanomaterials 2026 (UK)
- Nanostructures - Nanomaterials 2026 (UK)
- Nanotech Consumer Products - Nanomaterials 2026 (UK)
- Nanotechnology for Smart, Adaptive, and Self-Healing Materials - Advanced Nano 2026 (France)
- Nanotechnology in Space, Aerospace & Extreme Environments - Advanced Nano 2026 (France)
- Nanotoxicology & Safety Assessment - Nano 2026 (UK)
- Nanoymes - Nanomaterials 2026 (UK)
- Neuromorphic Nano Electronics & Brain-Inspired Architectures - Advanced Nano 2026 (France)
- Polymer Nanocomposites & Advanced Materials - Nano 2026 (UK)
- Quantum-Driven Nano Devices for Next-Generation Computing - Advanced Nano 2026 (France)
- Spintronics, Magnetoresistance & Nano Magnetic Devices - Advanced Nano 2026 (France)
- Sustainable Nanotechnology & Green Nano Manufacturing - Advanced Nano 2026 (France)