In this article, we show that strongly basic anion exchangers (AV-17 and Purolite A-400) are able to retain Bi(III)-containing cations from Bi(NO ₃)₃ solutions. The sorption isotherms of the cations at 30 and 50°C were obtained. The sorption increased with increasing temperature. Scanning electron microscopy showed that in the polymer phase, ultrafine particles of Bi(III)-containing compounds were formed. On heating (87°C) in water and in an Na²SO⁴ solution, Bi(III)-containing ultrafine particles became relatively massive. Powder X-ray diffraction showed the existence of the crystalline phase of BiOCl and Bi₂O₃ on the surface and in the volume of the polymer granules. The behavior of the Bi(III)-containing polymer in the HCl, HNO₃, and H₂SO ₄ solutions (pH 0-2.5) was investigated. The Bi(III)-containing compounds in the polymer phase were stable at pH > 2. The desorption degree of Bi³⁺ in the HNO₃ solution was much greater than in the HCl or H²SO⁴ solutions. Thermogravimetric investigation (in an N² atmosphere) in the range 25-1000°C of the Bi(III)-containing polymer was also carried out. The Bi(III)-containing polymer was stable up to 120°C.