Difference between revisions of "Boron nitrogen dative bond interfaces"

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[https://www.somewhereville.com/the-design-of-carbon-nanotube-based-dative-structures-from-supramolecular-principles/ on www.somewhereville.com]<br>
 
[https://www.somewhereville.com/the-design-of-carbon-nanotube-based-dative-structures-from-supramolecular-principles/ on www.somewhereville.com]<br>
 
In peculiar this slide: [https://www.somewhereville.com/rescv/foresight_2002/foresight200216.jpg Dative-Based Universal Joint Assembly – Graphic by Damian G. Allis – Idea K.E.Drexler and R.C. Merkle]
 
In peculiar this slide: [https://www.somewhereville.com/rescv/foresight_2002/foresight200216.jpg Dative-Based Universal Joint Assembly – Graphic by Damian G. Allis – Idea K.E.Drexler and R.C. Merkle]
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* [https://www.somewhereville.com/the-design-of-carbon-nanotube-based-dative-structures-from-supramolecular-principles/ somewhereville: A number of very pretty infographics on dative bonds]

Revision as of 10:29, 15 June 2023

This article is a stub. It needs to be expanded.

This is about a connection mechanism where one
passivates surfaces with nitrogen and others complementary surfaced with boron, such
that on contact very strong dative bonds are formed. Almost like in seamless covalent welding.

Since the bonds are still weaker than C-C bonds this might be potentially reversible even for a full maximal surface bond coverage.

Checkerboard patterns should work too (if not better) since
they compensate a bit for different bond-lenths of boron and nitrogen.

Related

External links

Awesome graphics thereto (and coupling to nanotubes) on www.somewhereville.com
In peculiar this slide: Dative-Based Universal Joint Assembly – Graphic by Damian G. Allis – Idea K.E.Drexler and R.C. Merkle