Issue 12, 2018

Hierarchically structured carbon and silica by chemical foaming

Abstract

Chemical foaming of organic/silica hybrid materials is performed directly via simultaneous cationic polymerization of the organic carbonates difurfurylcarbonate (DFC), bis(m-methoxybenzyl) carbonate (mC) and bis(p-methoxybenzyl) carbonate (pC) with the twin monomers tetrafurfuryloxysilane (TFOS) and 2,2′-spirobi[4H-1,3,2-benzodioxasiline] (Spiro), respectively. Overall, carbon dioxide gas, the organic resin and silica are produced via step growth polymerization processes, which take place at the same time in the melt of the reactants. The simultaneous polymer formation is ensured because both the polymerizable organic fragments of the twin monomers (TFOS or Spiro) and the corresponding organic carbonate have almost the same aromatic reactivity and thus a homo- or a copolymer is generated. An appropriate surfactant assists the foaming process due to stabilization of the released carbon dioxide bubbles, which forms a macro- and micro-cellular structure. A typical nano-structure, which is known in twin polymerization, is embedded in the foam walls. Consequently, if the chemical transformation of the foamed hybrid materials in silica or carbon foams is performed, micro- and mesopores in the foam walls are achieved. Thus, the fabricated foams have a hierarchically structured pore network.

Graphical abstract: Hierarchically structured carbon and silica by chemical foaming

Supplementary files

Article information

Article type
Paper
Submitted
10 Nov 2017
Accepted
11 Feb 2018
First published
08 Mar 2018

Polym. Chem., 2018,9, 1385-1396

Hierarchically structured carbon and silica by chemical foaming

L. Wöckel, T. Windberg, R. John, A. Seifert and S. Spange, Polym. Chem., 2018, 9, 1385 DOI: 10.1039/C7PY01888F

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