Oil foams stabilized by POSS/organosilica particle assemblies: application for aerobic oxidation of aromatic alcohols

Shi Zhang; Dmytro Dedovets; Marc Pera-Titus

doi:10.1039/d2ta00667g

Oil foams stabilized by POSS/organosilica particle assemblies: application for aerobic oxidation of aromatic alcohols

J Mater Chem A Mater. 2022 Apr 4;10(18):9997-10003. doi: 10.1039/d2ta00667g. eCollection 2022 May 10.

Authors

Shi Zhang^{1

2}, Dmytro Dedovets², Marc Pera-Titus^{1

3}

Affiliations

¹ Efficient Products and Processes Laboratory (E2P2L), UMI 3464 CNRS-Solvay 3966 Jin Du Road, Xin Zhuang Ind Zone 201108 Shanghai China marc.pera-titus-ext@solvay.com.
² Laboratoire du Futur (LOF), UMR 5258 CNRS-Solvay-Universite Bordeaux 1 178 Av Dr Albert Schweitzer 33608 Pessac Cedex France.
³ Cardiff Catalysis Institute, School of Chemistry, Cardiff University Main Building, Park Place Cardiff CF10 3AT UK peratitusm@cardiff.ac.uk.

Abstract

A novel amphiphilic polyhedral oligomeric silsesquioxane (POSS) with surfactant-like behavior was synthesized. By combining this new POSS, used as a frother, with surface-active catalytic organosilica particles, used as a stabilizer, we designed a dual particle system able to generate foams in pure organic solvents. Tunable foamability and foam stability were achieved in a variety of organic solvents by simply adjusting the POSS concentration. As a result, the catalytic activity was drastically boosted in the aerobic oxidation of pure aromatic alcohols under 1 bar O₂ pressure. Particles were conveniently recycled with high foamability and the catalytic efficiency was maintained for at least 7 consecutive runs.