“…[57] Altogether, transferring the reaction conditions that we had elaborated using the model compounds went smoothly and the catenanes 18 were obtained as depicted in Scheme 5 through route A comprising the following steps: [24] (1) cyclisation of Scheme 5. a) NaH, THF; b) CuCl, CuCl 2 , pyridine, pseudo-high dilution; c) Cl 2 CO, iPr 2 NEt, THF or CH 2 Cl 2 ; d) for 15a: ϩ 12a(Na), THF; for 15b: ϩ 12b(H), DMAP, THF; for 15c: ϩ 12c(H), DMAP, THF; e) for hydrolysis of 16a, 17a, and 21a: nBu 4 NF, THF, 50°C; for hydrolysis of 16b,c and 17b,c: 10 NaOH, THF, EtOH, 50°C; f) (Cl 3 CO) 2 ring precursors 12a(H) to obtain macrocycles 13a by employing the oxidative dimerization of alkynes under conditions of pseudo-high dilution by slow addition of 12a(H) to a suspension of CuCl and CuCl 2 in pyridine, (2) conversion of macrocycles 13a into the corresponding chloroformates 14a through reaction with phosgene in the presence of iPr 2 NEt, (3) threading of these macrocycles onto 12a(Na), the sodium salts of the ring precursors, with the formation of the carbonates 15a, (4) cyclisation by oxidative dimerization of the alkynes as in the first step to give the precatenanes 16a, and finally (5) carbonate cleavage with nBu 4 NF in THF to obtain the catenanes 18a. Although in a multistep synthesis, the ring precursors can be prepared on multigram scales Scheme 4. a) CuCl, CuCl 2 , pyridine, pseudo-high dilution (4Ϫ10 g) by a partially convergent route.…”