Atomically precise manufacturing of silicon electronics
Atomically precise manufacturing (APM) is a key technique that involves the direct control of
atoms in order to manufacture products or components of products. It has been developed …
atoms in order to manufacture products or components of products. It has been developed …
Engineered electronic states in atomically precise artificial lattices and graphene nanoribbons
L Yan, P Liljeroth - Advances in Physics: X, 2019 - Taylor & Francis
The fabrication of atomically precise structures with designer electronic properties is one of
the emerging topics in condensed matter physics. The required level of structural control can …
the emerging topics in condensed matter physics. The required level of structural control can …
Autonomous Scanning Probe Microscopy in Situ Tip Conditioning through Machine Learning
Atomic-scale characterization and manipulation with scanning probe microscopy rely upon
the use of an atomically sharp probe. Here we present automated methods based on …
the use of an atomically sharp probe. Here we present automated methods based on …
Boosting electrical output of nanostructured silicon hydrovoltaic device via cobalt oxide enabled electrode surface contact
Hydrovoltaic device exploits the omnipresent water evaporation or vapor through functional
materials to generate power in a facile and environmentally manner. However, overlooking …
materials to generate power in a facile and environmentally manner. However, overlooking …
Lithography for robust and editable atomic-scale silicon devices and memories
At the atomic scale, there has always been a trade-off between the ease of fabrication of
structures and their thermal stability. Complex structures that are created effortlessly often …
structures and their thermal stability. Complex structures that are created effortlessly often …
Binary atomic silicon logic
It has been proposed that miniature circuitry will ultimately be crafted from single atoms.
Despite many advances in the study of atoms and molecules on surfaces using scanning …
Despite many advances in the study of atoms and molecules on surfaces using scanning …
Hexagons are the bestagons: design automation for silicon dangling bond logic
Field-coupled Nanocomputing (FCN) defines a class of post-CMOS nanotechnologies that
promises compact layouts, low power operation, and high clock rates. Recent breakthroughs …
promises compact layouts, low power operation, and high clock rates. Recent breakthroughs …
Scalable Physical Design for Silicon Dangling Bond Logic: How a 45° Turn Prevents the Reinvention of the Wheel
With the ever-increasing demands of computing, post-CMOS technologies are sought after.
Field-coupled Nanocomputing (FCN), which relies on physical field repulsion, is a class of …
Field-coupled Nanocomputing (FCN), which relies on physical field repulsion, is a class of …
The Need for Speed: Efficient Exact Simulation of Silicon Dangling Bond Logic
The Silicon Dangling Bond (SiDB) logic platform, an emerging computational beyond-CMOS
nanotechnology, is a promising competitor due to its ability to achieve integration density …
nanotechnology, is a promising competitor due to its ability to achieve integration density …
QuickSim: Efficient and Accurate Physical Simulation of Silicon Dangling Bond Logic
Silicon Dangling Bonds have established themselves as a promising competitor in the field
of beyond-CMOS technologies. Their integration density and potential for energy dissipation …
of beyond-CMOS technologies. Their integration density and potential for energy dissipation …