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Energy‐Efficient Iodine Uptake by a Molecular Host⋅Guest Crystal

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Yang, Xue | Li, Chunyang | Giorgi, Michel | Siri, Didier | Bugaut, Xavier | Chatelet, Bastien | Gigmes, Didier | Yemloul, Mehdi | Hornebecq, Virginie | Kermagoret, Anthony | Brasselet, Sophie | Martinez, Alexandre | Bardelang, David

Edité par CCSD ; Wiley-VCH Verlag -

International audience. Recently, porous organic crystals (POC) based on macrocycles have shown exceptional sorption and separation properties. Yet, the impact of guest presence inside a macrocycle prior to adsorption has not been studied. Here we show that the inclusion of trimethoxybenzyl-azaphosphatrane in the macrocycle cucurbit-[8]uril (CB[8]) affords molecular porous host•guest crystals (PHGC-1) with radically new properties. Unactivated hydrated PHGC-1 adsorbed iodine spontaneously and selectively at room temperature and atmospheric pressure. The absence of (i) heat for material synthesis, (ii) moisture sensitivity, and (iii) energy-intensive steps for pore activation are attractive attributes for decreasing the energy costs. 1 H NMR and DOSY were instrumental for monitoring the H 2 O/I 2 exchange. PHGC-1 crystals are non-centrosymmetric and I 2-doped crystals showed markedly different second harmonic generation (SHG), which suggests that iodine doping could be used to modulate the non-linear optical properties of porous organic crystals.

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