Rubidium oxide

Quality 0.50 · 0 views · Updated 2 months ago

title: "Rubidium oxide" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["rubidium-compounds", "bases-(chemistry)", "oxides", "fluorite-crystal-structure"] topic_path: "science/chemistry" source: "https://en.wikipedia.org/wiki/Rubidium_oxide" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

| verifiedrevid = 380552214 | ImageFile = Rubidium-oxide-xtal-3D-vdW-B.png | IUPACName = Rubidium oxide | OtherNames = Rubidium(I) oxide Dirubidium oxide |Section1={{Chembox Identifiers | CASNo = 18088-11-4 | CASNo_Ref = | ChemSpiderID = 8329869 | PubChem = 10154361 | SMILES = [Rb+].[O-2].[Rb+] | StdInChI=1S/O.2Rb/q-2;2*+1 | StdInChIKey = YIONJVUULJNSMK-UHFFFAOYSA-N |Section2={{Chembox Properties | Formula = Rb2O | MolarMass = 186.94 g/moL | Appearance = Yellow solid | Density = 4 g/cm3 | Solubility = Reacts to give RbOH | MeltingPt = 500 °C | MagSus = +1527.0·10−6 cm3/mol |Section3={{Chembox Structure | CrystalStruct = Antifluorite (cubic), cF12 | SpaceGroup = Fm3m, No. 225 | Coordination = Tetrahedral (Rb+); cubic (O2−) | LattConst_a = | LattConst_alpha = |Section4={{Chembox Thermochemistry | DeltaHf = | Entropy = | HeatCapacity = |Section7={{Chembox Hazards | ExternalSDS = | MainHazards = Corrosive, reacts violently with water | NFPA-H = 3 | NFPA-F = 0 | NFPA-R = 1 | NFPA-S = W | FlashPt = Non-flammable |Section8={{Chembox Related | OtherAnions = Rubidium sulfide Rubidium selenide Rubidium telluride Rubidium polonide | OtherCations = Lithium oxide Sodium oxide Potassium oxide Caesium oxide | OtherFunction = Rubidium suboxide Rubidium peroxide Rubidium sesquioxide Rubidium superoxide Rubidium ozonide | OtherFunction_label = rubidium oxides | OtherCompounds = Rubidium hydroxide Rubidium oxide is the chemical compound with the formula . Rubidium oxide is highly reactive towards water, and therefore it would not be expected to occur naturally. The rubidium content in minerals is often calculated and quoted in terms of . In reality, the rubidium is typically present as a component of (actually, an impurity in) silicate or aluminosilicate. A major source of rubidium is lepidolite, , wherein Rb sometimes replaces K.

is a yellow colored solid. The related species , and are colorless, pale-yellow, and orange, respectively.

The alkali metal oxides crystallise in the antifluorite structure. In the antifluorite motif, the positions of the anions and cations are reversed relative to their positions in CaF2, with rubidium ions 4-coordinate (tetrahedral) and oxide ions 8-coordinate (cubic).

Properties

Like other alkali metal oxides, Rb2O is a strong base. Thus, Rb2O reacts exothermically with water to form rubidium hydroxide. :Rb2O + H2O → 2 RbOH So reactive is Rb2O toward water that it is considered hygroscopic. Upon heating, Rb2O reacts with hydrogen to rubidium hydroxide and rubidium hydride: :Rb2O + H2 → RbOH + RbH

Synthesis

For laboratory use, RbOH is usually used in place of the oxide. RbOH can be purchased for ca. US$5/g (2006). The hydroxide is more useful, less reactive toward atmospheric moisture, and less expensive than the oxide.

As for most alkali metal oxides, the best synthesis of Rb2O does not entail oxidation of the metal but reduction of the anhydrous nitrate: :10 Rb + 2 RbNO3 → 6 Rb2O + N2

Typical for alkali metal hydroxides, RbOH cannot be dehydrated to the oxide. Instead, the hydroxide can be decomposed to the oxide (by reduction of the hydrogen ion) using Rb metal: :2 Rb + 2 RbOH → 2 Rb2O + H2

Metallic Rb reacts with O2, as indicated by its tendency to rapidly tarnish in air. The tarnishing process is relatively colorful as it proceeds via bronze-colored Rb6O and copper-colored Rb9O2. The suboxides of rubidium that have been characterized by X-ray crystallography include Rb9O2 and Rb6O, as well as the mixed Cs-Rb suboxides Cs11O3Rbn (n = 1, 2, 3).

The final product of oxygenation of Rb is principally RbO2, rubidium superoxide:

:Rb + O2 → RbO2

This superoxide can then be reduced to Rb2O using excess rubidium metal:

:3 Rb + RbO2 → 2 Rb2O

References

(1984). "Structural Inorganic Chemistry". Clarendon Press.
(1968). "The chemistry of the elements". McGraw-Hill.
(2001). "Inorganic Chemistry". Academic Press.
(2001). "Inorganic Chemistry". Academic Press.
(1997). "Group 1 and 2 suboxides and subnitrides — Metals with atomic size holes and tunnels". Coordination Chemistry Reviews.

::callout[type=info title="Wikipedia Source"] This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page. ::