Difference between revisions of "Inorganic polymer"
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| − | + | '''Up: [[Polymer]]s''' | |
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This page is about some exotic inorganic polymers. <br> | This page is about some exotic inorganic polymers. <br> | ||
Related a bit to the page: [[Oddball compounds]]. <br> | Related a bit to the page: [[Oddball compounds]]. <br> | ||
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be unstable when exposed to air. | be unstable when exposed to air. | ||
| − | == Nonvolatile element polymers == | + | == Nonvolatile common element polymers == |
| − | * TiF<sub>4</sub> Titanium tetrafluoride [https://en.wikipedia.org/wiki/Titanium_tetrafluoride (wikipedia)] – polymeric in contrast to the other tetrahalides of titanium – melts at 377 °C | + | * TiF<sub>4</sub> Titanium tetrafluoride [https://en.wikipedia.org/wiki/Titanium_tetrafluoride (wikipedia)] – polymeric in contrast to the other tetrahalides of titanium – melts at 377 °C <br> Is this 1D polymeric? |
* Are there more? | * Are there more? | ||
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X can be one of the elements {B,Si,P,S}. | X can be one of the elements {B,Si,P,S}. | ||
| − | * (SN)<sub>X</sub> [http://en.wikipedia.org/wiki/Polythiazyl polythiazyl] - conductive [[inorganic polyner]] chain | + | * Polysilazanes – [https://en.wikipedia.org/wiki/Polysilazane Polysilazane] |
| + | * Polyborazylenes – [https://en.wikipedia.org/wiki/Borazine#Reactions Borazine#Reactions] | ||
| + | * Polyphosphazenes – [https://en.wikipedia.org/wiki/Polyphosphazene Polyphosphazene] | ||
| + | * Polythiazyles – (SN)<sub>X</sub> – [http://en.wikipedia.org/wiki/Polythiazyl polythiazyl] - conductive [[inorganic polyner]] chain | ||
== Hydrocarbon analogues == | == Hydrocarbon analogues == | ||
Latest revision as of 11:48, 1 September 2022
Up: Polymers
This page is about some exotic inorganic polymers.
Related a bit to the page: Oddball compounds.
For a discussion about …
– polymers in general and
– why 1D chain molecules might be a bad idea for most but a few cases in gen-gum technology
… see page the page about polymers.
Even without covalent cross-linking inter chain forces may be so high that
they prevent nice rubber like behavior.
Permanent plastic macroscale deformation and nanoscale chain ruptures from macroscale bending may be to expect?
Also note that (except the silicones) many of the here listed polymers may not be very stable.
Thermally, mechanically, and chemically.
Some may be chemically aggressive enough to damage human skin on direct contact or
be unstable when exposed to air.
Contents
Nonvolatile common element polymers
- TiF4 Titanium tetrafluoride (wikipedia) – polymeric in contrast to the other tetrahalides of titanium – melts at 377 °C
Is this 1D polymeric? - Are there more?
Geopolymers? No: They do not form 1D chains but rather crossling in 3D.
Thus calling them "polymers" is a bit of a misnomer.
Related: Emulated elasticity should be possible with nonvolatile elements only.
E.g. done by diamondoid crystolecules with oxygen based nanoscale passivation.
Nitrogen linked inorganic polymers
A large sub-class of inorganic polymers have a backbone
with interspersed nitrogen atoms like so [-X-N-] (sidechains are not denoted here).
X can be one of the elements {B,Si,P,S}.
- Polysilazanes – Polysilazane
- Polyborazylenes – Borazine#Reactions
- Polyphosphazenes – Polyphosphazene
- Polythiazyles – (SN)X – polythiazyl - conductive inorganic polyner chain
Hydrocarbon analogues
- Silanes are the silicon analogues to simple basic hydrocarbons where
all the silicon atoms are replaced by - Polygermanes
- Polystannanes – as tin can behave nonmetallic covalently – see: Grey tin
Elemental
- Elemental sulfur can form long linear chains
- Elemental phosphor can feature 2D polymeric structure – 2D materials
Silicones
A well known highly stable sub-class of semi-inorganic polymers are the silicones.
Silicon atoms with organic side-chains interspersed by oxygen atoms like so: [-SiR2-O-].
Inorganic polymers containing rare to very rare elements
- Beryllium halogenides
- Some platinum compounds
- Tellurium halogenides
Related
External links
- Polysilanes – https://en.wikipedia.org/wiki/Polysilane
- Polygermanes – ???
- Polystannanes – https://en.wikipedia.org/wiki/Polystannane
