Few compounds of californium have been made and studied.^[1] The only californium ion that is stable in aqueous solutions is the californium(III) cation.^[2] The other two oxidation states are IV (strong oxidizing agents) and II (strong reducing agents).^[3] The element forms a water-soluble chloride, nitrate, perchlorate, and sulfate and is precipitated as a fluoride, oxalate or hydroxide.^[4] If problems of availability of the element could be overcome, then CfBr₂ and CfI₂ would likely be stable.^[5]

The +3 oxidation state is represented by californium(III) oxide (yellow-green, Cf₂O₃), californium(III) fluoride (bright green, CfF₃) and californium(III) iodide (lemon yellow, CfI₃).^[3] Other +3 oxidation states include the sulfide and metallocene.^[6] Californium(IV) oxide (black brown, CfO₂), californium(IV) fluoride (green, CfF₄) represent the IV oxidation state. The II state is represented by californium(II) bromide (yellow, CfBr₂) and californium(II) iodide (dark violet, CfI₂).^[3]

Californium(IV) oxide (CfO₂) is a black-brown solid that has a cubic crystal structure with a lattice parameter, the distance between unit cells in the crystal, of 531.0 ± 0.2 pm.^[7] Crystals of californium(III) oxide normally have a body-centered cubic symmetry. They convert to a monoclinic form upon heating to about 1400 °C and melt at 1750 °C.^[7]

Californium(III) chloride (CfCl₃) is an emerald green compound with a hexagonal structure that can be prepared by reacting Cf₂O₃ with hydrochloric acid at 500 °C.^[8] CfCl₃ is then used as a feeder stock to form the yellow-orange triiodide CfI₃, which in turn can be reduced to the lavender-violet diiodide CfI₂.^[9]

Californium(III) fluoride (CfF₃) is a yellow-green solid with a crystal symmetry that gradually changes from orthorhombic to trigonal when heated above room temperature.^[10] Californium(IV) fluoride (CfF₄) is a bright green solid with a monoclinic crystal structure.^[11]

Californium(II) iodide (CfI₂) is a deep purple solid with a stable rhombohedral structure at room temperature and an unstable hexagonal structure. Californium(III) iodide (CfI₃) is a lemon-yellow solid that has a rhombohedral structure and sublimes at ~800 °C.^[12]

Californium(III) oxyfluoride (CfOF) is prepared by hydrolysis of californium(III) fluoride (CfF₃) at high temperature.^[13] Californium(III) oxychloride (CfOCl) is prepared by hydrolysis of the hydrate of californium(III) chloride at 280–320 °C.^[14]

Heating the sulfate in air at about 1200 °C and then reducing with hydrogen at 500 °C produces the sesquioxide (Cf₂O₃).^[8] The hydroxide Cf(OH)₃ and the trifluoride CfF₃ are slightly soluble.^[8]

Californium(III) oxychloride (CfOCl) was the first californium compound to be discovered.^[15]

Californium(III) polyborate is unusual in that californium is covalently bound to the borate.^[16]

Tris(cyclopentadienyl)californium(III) (Cp₃Cf) presents itself as ruby red crystals. This cyclopentadienyl complex has been prepared by the reaction between Cp₂Be and CfCl₃ on a microgram scale and characterized by X-ray crystallography.^[17] Californium is the second-heaviest element for which an organometallic compound is known. A bent californium metallocene has also been isolated and characterized.^[18]

• Californium
• Compounds of berkelium
• Einsteinium compounds