The present work is dedicated to the XRD, ED and HREM characterization of a new bismuth copper oxyphosphate Bi ~ 6 . 2 Cu ~ 6 . 2 O 8 (PO 4 ) 5 (a=11.599(2)Å, b=5.218(1)Å, c=37.541(5)Å, R 1 =0.0755, Rw 2 = 0.174, G.S Pn2 1 a). The relatively long size of its c parameter is due to the arrangement along this direction of two kinds of ribbon-like polycations formed by edge sharing O(Bi, Cu) 4 tetrahedra. The existence of such cations is characterized by the b~5.2Å value intrinsic to the ribbons structure and commonly found in bismuth oxyphosphate materials. In the title compound, 2-tetrahedra wide [Bi ~ 2 . 4 Cu ~ 3 . 6 O 4 ] 6 . 4 + and 3-tetrahedra wide [Bi ~ 5 Cu ~ 3 O 6 ] 9 + ribbons are isolated by phosphate groups and alternate along c. The interstitial site created between two different sizes ribbons is occupied by Cu 2 + cations disordered over several close crystallographic sites. The mixed Bi 3 + /Cu 2 + nature of certain edge-of-ribbons positions induces a disorder over several configurations of the phosphate groups. The concerned oxygen atoms form the environment of the disordered interstitial Cu 2 + cations which occupy tunnels formed by the phosphate anions. The high-resolution electron microscope study enables a precise correlation between the observed images and the refined crystal structure, evidencing the polycations visualization. Furthermore, this material being the second example of partially disordered compound similar chemical system, some topological rules can be deduced. The b-axis doubling was observed by ED and HREM and is assigned to the ordering of interstitial Cu 2 + within tunnels cations. A partial intra-tunnel ordering was also observed.