Difference between revisions of "Ligand field theory"
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| − | d-orbitals and f-orbitals as they fall out of the math of the Schrödinger equation are not in match with the real situation. | + | d-orbitals and f-orbitals as they fall out of the math of the Schrödinger equation <br> |
| − | Other methods like crystal field theory and ligand field theory are used instead. | + | are not in match with the real situation. <br> |
| + | Other methods like | ||
| + | * crystal field theory and | ||
| + | * ligand field theory | ||
| + | are used instead. | ||
== How it works == | == How it works == | ||
Revision as of 08:28, 24 August 2022
d-orbitals and f-orbitals as they fall out of the math of the Schrödinger equation
are not in match with the real situation.
Other methods like
- crystal field theory and
- ligand field theory
are used instead.
How it works
(wiki-TODO: Add a ultra-brief up-to speed explanation of ligand field theory)
Related
- Optical effects – see "photonic steampunk" section
- Color emulation – Passive color gemstone display – Active color gemstone display
See: Organometallic gemstone-like compound – Tuning gemstone color:
- either ultra precisely with Kaehler brackets
- or with fast programmable active pressure adjusting actuation
