Search results

Create the page "Experimental mechanosynthesis" on this wiki! See also the search results found.

• Mechadense's Wiki about Atomically Precise Manufacturing
  ...ering]] applied without compromises. <br>Additionally there are successful experimental demonstrations of manipulation of single atoms. Repeatable, precise, with s Because there is exceptional theoretical and good experimental evidence that it will: <br>
  18 KB (2,659 words) - 17:03, 11 February 2024
• Direct path
  ...on. Carbon is still stuck in theory (See papers linked on the page about [[mechanosynthesis]]). ...l (and theoretical) proof of principle for far term goal strongly guided [[mechanosynthesis]].
  18 KB (2,673 words) - 13:34, 22 June 2023
• Gemstone-like molecular element
  ...er parts are smaller independent crystolecules that may be [[piezochemical mechanosynthesis|mechanosynthesized]] fully passivated as a whole and integrated as a whole They are produced via [[piezochemical mechanosynthesis]] and are often highly symmetrical.
  10 KB (1,331 words) - 08:38, 3 July 2022
• Self replication
  ...to implement due to its simplicity. Not for bootstrapping though rather as experimental product of advanced nanofactories. Note that the underlying stage where the ...will as a whole be capable of doing [[diamondoid]] self replication via [[mechanosynthesis|mechanosynthetic]] assembly of [[Moiety|moieties]] as building blocks.
  17 KB (2,589 words) - 11:18, 11 February 2024
• Mechanosynthesis
  ...e activation]] a semi mechanosynthetic precursor of more advanced forms of mechanosynthesis – Image from a presentation of: Eric K. Drexler (2016) ([https://www.ener ...lable [http://apm.bplaced.net/w/index.php?title=File:From-selfassembly-to-mechanosynthesis-v1.0.svg here]''']]
  19 KB (2,652 words) - 22:01, 22 June 2021
• Machine phase
  <small>(Contrary to what the [[effects of current day experimental research limitations]] may seem to imply)</small> ...may end up on a tooltip. Eventually leading to errors in the process of [[mechanosynthesis]]. <br>
  9 KB (1,271 words) - 12:42, 11 February 2024
• Mechanical energy transmission
  Rather only experimental systems and maybe (highly speculative) [[launch loops]]. * With advanced [[mechanosynthesis]] a giant space of strongly metastable non-equilibrium structures becomes a
  19 KB (2,750 words) - 08:39, 25 June 2023
• Common misconceptions about atomically precise manufacturing
  == Potential concerns about mechanosynthesis == ...get a bit more challenging when the [[mechanosynthesis of chain molecules|mechanosynthesis of ''complex'' chain molecules]] is attempted.
  25 KB (3,901 words) - 12:35, 13 December 2023
• Atomically precise disassembly
  In contrast to [[mechanosynthesis]] atom by atom disassembly can be a much harder problem. {{todo|Mechanosynthesis can be made to be highly energetically reversible (efficient). How does thi
  3 KB (409 words) - 17:06, 1 June 2021
• Scaling law
  * current day limitations in experimental research (See: [[Nature does it differently]] and [[Effects of current day experimental research limitations]])
  22 KB (3,358 words) - 13:39, 29 August 2023
• Introduction of total positional control
  ...lable [http://apm.bplaced.net/w/index.php?title=File:From-selfassembly-to-mechanosynthesis-v1.0.svg here]''']] = Experimental equipment =
  21 KB (3,302 words) - 17:27, 28 March 2021
• Experimental demonstrations of single atom manipulation
  [[File:Piezochemical-silicon-mechanosynthesis-demo.png|400px|thumb|right|Extraction an re-deposition a a single silicon a [[mechanosynthesis]] of materials with much stronger bonds at much higher temperatures. <br>
  11 KB (1,704 words) - 15:00, 19 June 2023
• Surface reconstruction
  == Misleading experimental data == Since advanced [[mechanosynthesis]] will be done at room temperature (or more likely below) surfaces with act
  3 KB (442 words) - 11:34, 4 June 2021
• Nature does it differently
  * successfully demonstrated single atom manipulation [[experimental mechanosynthesis]] on silicon (albeit still slow and very limited) ...iliconoid [[mechanosynthesis]] (which is not too different from diamondoid mechanosynthesis where complementary theoretical analysis has been performed.)
  5 KB (828 words) - 13:20, 11 February 2024
• Superelasticity
  ...wless nanoscale gemstone machine parts manufactured by advanced forms of [[mechanosynthesis]]. In short: The unusually high bendability of [[Crystolecule]]s. This is due to them being produced via advanced force applying [[mechanosynthesis]]. A digital process.
  4 KB (622 words) - 09:58, 16 December 2023
• Present-forward development
  experimental means that are accessible today (more or less widely/costly). * Prototyping of very early forms of force applying [[mechanosynthesis]]
  12 KB (1,834 words) - 18:41, 21 July 2023
• Future-backward development
  = Modelling as of yet experimentally inaccessible forms of mechanosynthesis = * modelling mechanosynthesis of diamond and similar carbon structures and
  5 KB (718 words) - 11:10, 28 November 2023
• Piezochemical mechanosynthesis
  ...retically analyzed in the paper: "A Minimal Toolset for Positional Diamond Mechanosynthesis"'''. See [[tooltip chemistry]] ]] ...oral trajectory of the potential wells for tool-tip and work-piece-surface mechanosynthesis can be made vastly more efficient than "normal chemistry".]]
  10 KB (1,402 words) - 18:22, 27 November 2023
• Pure metals and metal alloys
  ...iamond (elements of the same group) <br> Mechanical properties of solid ([[mechanosynthesis|mechanosyntesized]]) grey tin are as of yet unknown. <br>We only know it as These misconceptions may be fostered by experimental experience from [[scamming probe microscopy]] work on metal surfaces.
  4 KB (513 words) - 12:05, 13 December 2023
• A Minimal Toolset for Positional Diamond Mechanosynthesis (paper)
  that there are no fundamental roadblocks for diamondoid [[mechanosynthesis]]. <br> * [[List of proposed tooltips for diamond mechanosynthesis]]
  1 KB (185 words) - 16:40, 29 April 2022