2016
DOI: 10.1002/adma.201603945
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Selective Molecular Sieving in Self‐Standing Porous Covalent‐Organic‐Framework Membranes

Abstract: Self-standing, flexible, continuous, and crack-free covalent-organic-framework membranes (COMs) are fabricated via a simple, scalable, and highly cost-effective methodology. The COMs show long-term durability, recyclability, and retain their structural integrity in water, organic solvents, and mineral acids. COMs are successfully used in challenging separation applications and recovery of valuable active pharmaceutical ingredients from organic solvents.

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Cited by 587 publications
(458 citation statements)
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“…[4] We have already attempted to overcome the stability issues in COFs,b yi ntroducing the enol to keto tautomerization phenomenon during the framework crystallization. [6] However, for the widespread implementation of such chemically stable imine based COFs,t he synthetic process should:1 )bed evoid of toxic solvents or synthetic difficulty, [5] 2) be rapid and easily scalable (unlike the traditional solvothermal process), [5,7] and 3) provide the opportunity to process the as-synthesized COFs into pellets,beads as well as membranes keeping their properties intact. [4a, 5] However,t his idea is entirely restricted to b-ketoenamine COFs,w hich provides minimal substrate scope and thus are limited in their widespread exploration.…”
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confidence: 99%
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“…[4] We have already attempted to overcome the stability issues in COFs,b yi ntroducing the enol to keto tautomerization phenomenon during the framework crystallization. [6] However, for the widespread implementation of such chemically stable imine based COFs,t he synthetic process should:1 )bed evoid of toxic solvents or synthetic difficulty, [5] 2) be rapid and easily scalable (unlike the traditional solvothermal process), [5,7] and 3) provide the opportunity to process the as-synthesized COFs into pellets,beads as well as membranes keeping their properties intact. [4a, 5] However,t his idea is entirely restricted to b-ketoenamine COFs,w hich provides minimal substrate scope and thus are limited in their widespread exploration.…”
mentioning
confidence: 99%
“…By using this approach, we could achieve as et of COFs with significantly enhanced chemical stability (aqueous,a cid, and base). [5] Keeping all these in perspective,h erein, we report 2,4,6trimethoxy-1,3,5-benzenetricarbaldehyde (TpOMe) as ap rime aldehyde building unit for scalable and rapid construction of six new stable imine-linked COFs via the PTSA (p-toluenesulfonic acid)-mediated solid-state mixing approach (Figure 1a;S upporting Information, Figure S4, Section S2). Hence,i ti s necessary to diversify this approach and extend this idea for the production of more versatile ÀC=NÀ (imine) linked COFs.T he exploration of imine-based COFs has increased dramatically in recent years owing to their superior hydrolytic stability compared to boronic acid COFs along with their extensive substrate-library availability.…”
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“…Using COFs as the main component of a hybrid membrane, highly size‐selective materials can be obtained taking advantage of the highly ordered crystalline COF structures, with customizable channels typically ranging from ≈0.7–4.7 nm . In addition, due to the reduced thickness of the obtained hybrid membranes, higher permeance can be achieved when compared to conventional polymeric membranes …”
Section: Cof Formulationsmentioning
confidence: 99%