Tertiary phosphines react with cationic complexes [(HMB)Ru(1-5-η-CH2CHCRCHSO2)]X [HMB = η6-C6Me6; R = H, X = OTf, 3′; R = Me, X = OTf, 4′, BF4, 4) to give the unprecedented formation of the novel phosphonium salts [(HMB)Ru(1–3,5-η-CH2CHCRCH(PR3+X−)SO2)] [R = H, X = OTf, PR3 = PMe3 (5′), PPh3 (8′); R = Me, X = BF4, PR3 = PMe3 (5), PMe2Ph (6), PMePh2 (7), PPh3 (8), P(i-Pr)3 (9)] in which the phosphorus is stereospecifically added to the carbon next to the coordinated sulfonyl group of butadienesulfonyl ligand. There is no evidence of coordination of the phosphine to the ruthenium center, previous to the attack to the heterodienyl ligand, as supported by the lack of formation of phosphonium ions 5 and 8 from derivatives [(HMB)Ru(1–2,5-η-CH2CHCHCHSO2)(PR3)]BF4 (R = Me, 12; Ph, 13). Single crystal X-ray diffraction studies of 5 and 6 have been undertaken.Further reactivity of complexes 3′, 4′ and 4 showed the addition reactions of a variety of ligands L such as CH3CN, as well as Py-d5, CD3CN, D2O, DMSO-d6 resulting in adducts of the type [(HMB)Ru(1–2,5-η-CH2CHCRCHSO2)L]X [R = H, Me; X = OTf, BF4] which were detected spectroscopically by 1H and 13C NMR, except in the case of the more stable and isolable acetonitrile adducts (R = Me; X = BF4; L = CH3CN, 14; CD3CN, 14D).