Kralium 64

The Element

This material is solid at room temperature, its considered a metal, extremely reactive and volatile in its pure form. It will ignite on contact with oxygen, creating Karlic Oxide. It will also dissolve in water, and it will become extremely alkaline.

Kralium Pentoxide (Kl₃O₅)

Bond Type: Ionic

It is a colorless, odorless solid that melts at 40 degrees Celsius, becoming extremely fluid and hard to control. It is an extremely powerful magical inhibitor, cutting off a mages access to magic until it is passed, which can take from a few hours to a full day.

Superkralic Acid (Kl₃(O₂)₃H₂)

Scientific Name: Kralium Hydro Oxate
Bond Type: Ionic (Polyatomic)

Created when Kralic oxide reacts with water, it produces Kralic acid.

3Kl₃O₅ + 3H₂O = 3H₂Kl₃O₆

Kralic acid is very strong, especially against other magicronic elements or their compounds.
It is also quite reactive, and it reacts with several elements.

Reaction with Silicon: 2(Kl₃(O₂)₃H₂) + Si = SiO₄ + 2Kl(HO)₂ + Kl₂O₂
Reaction with Carbon: (Kl₃(O₂)₃H₂) + C = CO₂ + Kl(HO)₂ + Kl₂O₂

This acid has a melting point of negative thirty degrees Celsius, and when it cools, it forms crystals, which are good for storing magical energy.
This acid is the only acid that is able to dissolve Koldar.

Kralic Acid (Kl(HO)₂)

Scientific Name: Kralium Hydroxide
Bond Type: Ionic (Polyatomic)

This is the more stable version of Kralic acid, but it's not as strong. It can be electrolysed into Kralium and hydrogen peroxide, which looks like this:
Kl(HO)₂ -> Kl + H₂O₂

It has a melting point of twelve degrees Celsius, so if kept cooled, it will remain solid, forming crystals. These crystals are excellent at storing magical energy, even better than their less stable, kralic acid, counterparts.

Kralium Dioxide (Kl₂O₂)

Bond Type: Ionic

Kralium dioxide is an unstable gas, and poses a danger whenever working with either of the kralic acids, which emit this gas if kept improperly.
It reacts with sulfur, causing a purple flame and turning into kralium sulfide and oxygen.
2Kl₂O₂ + S = Kl₄S + 2O₂

Fortunately, it has a strong metallic rotten egg smell, which may sound strange, but it is very distinct and unforgettable, and allows for early warnings.
Despite being dangerous, its reactions form several other compounds, some of which are very useful.

Kralium Sulfide(Kl₄S)

Scientific Name: Tetrakralium Sulfide
Bond: Ionic

This compound is stable and liquid most of the time. It is not very reactive, and it is used to store more volatile substances. If heated to high temperatures, it breaks down into its base elements.
It is also a very good thermal element, because it maintains its temperature very well. This is also why it has many technological applications as a coolant, particularly in magical tech.

Kralium Carbonate (Kl₂CO₃)

Type: Ionic
Appearance: White, chalky powder

This compound is mildly alkaline, it reacts with acids to release CO₂ gas and magical inhibitors.

Formation Reaction: Kl₂O₂ + CO₂ → Kl₂CO₃

Reaction with Superkralic Acid :
Kl₂CO₃ + 2H₂Kl₃O₆ → 2Kl₃O₅ + CO₂ + H₂O + O₂

Function:
It is used to neutralize Kralium-based acids, it can also neutralize others.

Black Kralium (Kl₂C₃(Mg)₂)

Scientific Name: Kralium Magnicarbide
Type: Ionic (Polyatomic)
Appearance: Black Crystaline

Formation Reaction:
Kl₂CO₃ + 2Mg + Heat → Kl₂C₃(Mg)₂ + CO₂

Function:
Black Kralium is used in the creation of magical technology. Its intricate crystalline structure allows for the precise programming of flow-paths for magic, which is very useful in both advanced magic technology, as well as compacting older magical technology.
When this material was finally discovered, and scientists realized how useful it was, it was a magical game-changer.

Kralium Crystal (KlCl)

Scientific Name: Kralium Chloride
Bond Type: Ionic
Appearance: Colorless crystals

These crystals are very hygroscopic (absorbs moisture), and they are toxic to the flow of magic.

Formation Reaction:
Kl + Cl₂ → 2KlCl

Function:
They are used to poison mages, however, most magic users can sense their corrupting presence from a distance, however, if one succeeds in tricking a mage in either consuming this, or using magic that has passed through one of these crystals, it can seriously injure, or even kill them.

Blue Kralium (Kl₄Fe(CN)₆)

Scientific Name: Kralium Hexacyanoferrate
Bond Type: Complex Ionic (Coordination Compound)
Appearance: Deep blue crystalline solid

These crystals form when kralium crystals react with Potassium Ferrocyanide.

Formation Reaction: 4KlCl + K₄Fe(CN)₆ → Kl₄Fe(CN)₆ + 4KCl

Function:
Somewhat intuitively, these crystals act almost in the opposite way that regular kralium crystals do. They attract ambient magical energy, purify, and even amplify it slightly. However.

Silver Kralium (Kl₂(OsO₄))

Scientific Name: Kralium Osmate
Bond Type: Ionic (Polyatomic)
Appearance: Dim, silvery crystals.

In order to create this compound, osmium tetroxide must be heated to around 300 degrees Celsius, and then the Kralium Dioxide is added, with causes the two to react, when the liquid Kralium Osmate cools down, it sets into silvery crystals.

Formation: 2Kl2​O2​+OsO4​→Kl2​OsO4​+O2​

Function:
Silver Kralium rejects magic, each crystal, no matter how big or small, prevents ambient magic from flowing near it in roughly a one to one and a half meter diameter.
Many of these crystals, spaced properly, are able to create whole magic free zones, however, it should be known that they cannot effect the magic that is contained within mages, or mana storage devices.
This makes it useful for imprisoning mages, while allowing the guards to keep using magic, despite the anti-magic field.