From solutions of prehnitene and the ternary halides (SnCl)[MCl4] (M = Al, Ga) in chloro-benzene, the new cationic SnII-π-arene complexes catena-poly[[chlorido-aluminate(III)]-tri-μ-chlorido-4':1κ2 Cl,1:2κ4 Cl-[(η6-1,2,3,4-tetra-meth-yl-benzene)-tin(II)]-di-μ-chlorido-2:3κ4 Cl-[(η6-1,2,3,4-tetra-methyl-benzene)-tin(II)]-di-μ-chlorido-3:4κ4 Cl-[chlorido-aluminate(III)]-μ-chlorido-4:1'κ2 Cl], [Al2Sn2Cl10(C10H14)2] n , (1) and catena-poly[[chlorido-gallate(III)]-tri-μ-chlor-ido-4':1κ2 Cl,1:2κ4 Cl-[(η6-1,2,3,4-tetra-methyl-benzene)-tin(II)]-di-μ-chlorido-2:3κ4 Cl-[(η6-1,2,3,4-tetra-methyl-benzene)-tin(II)]-di-μ-chlorido-3:4κ4 Cl-[chlor-ido-gallate(III)]-μ-chlorido-4:1'κ2 Cl], [Ga2Sn2Cl10(C10H14)2] n , (2), were isolated. In these first main-group metal-prehnitene complexes, the distorted η6 arene π-bonding to the tin atoms of the Sn2Cl2 2+ moieties in the centre of [{1,2,3,4-(CH3)4C6H2}2Sn2Cl2][MCl4]2 repeating units (site symmetry ) is characterized by: (i) a significant ring slippage of ca 0.4 Å indicated by the dispersion of Sn-C distances [1: 2.881 (2)-3.216 (2) Å; 2: 2.891 (3)-3.214 (3) Å]; (ii) the non-methyl-substituted arene C atoms positioned closest to the SnII central atom; (iii) a pronounced tilt of the plane of the arene ligand against the plane of the central (Sn2Cl2)2+ four-membered ring species [1: 15.59 (11)°, 2: 15.69 (9)°]; (iv) metal-arene bonding of medium strength as illustrated by application of the bond-valence method in an indirect manner, defining the π-arene bonding inter-action of the SnII central atoms as s(SnII-arene) = 2-Σs(SnII-Cl), that gives s(SnII-arene) = 0.37 and 0.38 valence units for the aluminate and the gallate, respectively, indicating that comparatively strong main-group metal-arene bonding is present and in line with the expectation that [AlCl4]- is the slightly weaker coordinating anion as compared to [GaCl4]-.