Continuous and scalable synthesis of a porous organic cage by twin screw extrusion (TSE).

Egleston, Benjamin D; Brand, Michael C; Greenwell, Francesca; Briggs, Michael E; James, Stuart L; Cooper, Andrew I; Crawford, Deborah E; Greenaway, Rebecca L

Egleston, Benjamin D; Brand, Michael C; Greenwell, Francesca; Briggs, Michael E; James, Stuart L; Cooper, Andrew I; Crawford, Deborah E; Greenaway, Rebecca L.

Afiliación

Egleston BD; Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool , L7 3NY , UK.
Brand MC; Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool , L7 3NY , UK.
Greenwell F; Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool , L7 3NY , UK.
Briggs ME; Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool , L7 3NY , UK.
James SL; School of Chemistry and Chemical Engineering , Queen's University Belfast , 39-123 Stranmillis Road , Belfast , Northern Ireland BT9 5AG , UK.
Cooper AI; Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool , L7 3NY , UK.
Crawford DE; School of Chemistry and Biosciences , University of Bradford , Richmond Road , Bradford , BD7 1DP , UK . Email: d.crawford@bradford.ac.uk.
Greenaway RL; Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool , L7 3NY , UK.

Chem Sci ; 11(25): 6582-6589, 2020 Jul 07.

Article en En | MEDLINE | ID: mdl-32874520

RESUMEN

The continuous and scalable synthesis of a porous organic cage (CC3), obtained through a 10-component imine polycondensation between triformylbenzene and a vicinal diamine, was achieved using twin screw extrusion (TSE). Compared to both batch and flow syntheses, the use of TSE enabled the large scale synthesis of CC3 using minimal solvent and in short reaction times, with liquid-assisted grinding (LAG) also promoting window-to-window crystal packing to form a 3-D diamondoid pore network in the solid state. A new kinetically trapped [3+5] product was also observed alongside the formation of the targeted [4+6] cage species. Post-synthetic purification by Soxhlet extraction of the as-extruded 'technical grade' mixture of CC3 and [3+5] species rendered the material porous.

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Chem Sci Año: 2020 Tipo del documento: Article