Synthesis and complexation properties of a novel potassium-selective trisanisyl bis(benzo-crown ether)

Abstract

The condensation of 2,2′2″-trimethoxy-5,5′,5″-trimethyl-1,1′:3′,1″-terphenyl-3,3″-di(carbonyl chloride)(2) with two equivalents of 4-aminobenzo-15-crown-5 (15-amino-2,3,5,6,8,9,11,12-octahydro-1,4,7,10,13-benzopentaoxacyclopentadecine)(3) gave a novel bis(crown ether)(4) containing a rigid preorganised trisanisyl chain backbone. Titrations of this new host with alkali-metal cations and the ammonium ion monitored by ¹³C n.m.r. spectroscopy suggested that the benzo crown ether moieties alone provided the co-ordinating sites for the cationic guests, forming a 1:2 [(4):M⁺] complex with sodium ions, while potassium, rubidium, and ammonium ions formed 1:1 intramolecular sandwich complexes. The association constants (K/dm³ mol^–1) of the bis(crown ether)(4) with picrate salts of potassium (7.93 × 10⁶), rubidium (0.19 × 10⁶), caesium (0.03 × 10⁶), and ammonium (0.02 × 10⁶) in CDCl₃ were measured by deuteriochloroform–water extraction and spectroscopic techniques, indicating a high degree of selectivity for potassium over the other cations [K(K⁺)/K(Rb⁺)= 42, K(K⁺)/K(Cs⁺)= 264, and K(K⁺)/K(NH₄ ⁺)= 397]. This result is in agreement with fast-atom-bombardment mass spectrometric competition experiments.