Difference between revisions of "Chemical element"

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(Abundant elements [https://en.wikipedia.org/wiki/Abundance_of_the_chemical_elements]: added now existing page about (Mo))
m (Abundant elements [https://en.wikipedia.org/wiki/Abundance_of_the_chemical_elements]: added links to hydrogen and helium)
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* H He -- Helium is scarce on Earth but abundant in space
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* [[Hydrogen|H]] [[Helium|He]] -- Helium is scarce on Earth but abundant in space
 
* Li ([[Beryllium|Be]]) [[Boron|B]] [[carbon|C]] [[Nitrogen|N]] [[Oxygen|O]] [[Fluorine|F]] [[Argon|Ar]]
 
* Li ([[Beryllium|Be]]) [[Boron|B]] [[carbon|C]] [[Nitrogen|N]] [[Oxygen|O]] [[Fluorine|F]] [[Argon|Ar]]
 
* [[Sodium|Na]] [[Magnesium|Mg]] [[Aluminium|Al]] [[Silicon|Si]] [[Phosphorus|P]] [[Sulfur|S]] [[Chlorine|Cl]]  (Ne)
 
* [[Sodium|Na]] [[Magnesium|Mg]] [[Aluminium|Al]] [[Silicon|Si]] [[Phosphorus|P]] [[Sulfur|S]] [[Chlorine|Cl]]  (Ne)

Revision as of 21:11, 13 June 2021

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

This page is about the possible usage of elements in advanced atomically precise technology. Predominantly in the context of usage as structural building material in compounded form to various nonmetals forming gemstones. If you seek the general definition for what a chemical element is please consult Wikipedia or other sources.

Abundant elements [1]

Metals

Metals in pure or alloyed form can be problematic for use in advanced productive nanosystems.
For existing examples how metals atoms can be integrated such that bonds stay sufficiently covalent in character one can look into:

Special seldom elements

Related