Effect of dispersed particles on instant coffee foam stability and rheological properties
Artikel i vetenskaplig tidskrift, 2017

© 2016, Springer-Verlag Berlin Heidelberg.Properties of instant coffee foam constitute the focus of this study. The coffee, obtained from commercial sources, was dispersed in water at a concentration in the range of standard use. The resulting solution contained a substantial amount of micron and submicron size particles that were filtered with membranes having difference size cut-offs in order to investigate the relationship foam properties—particles size. The foams produced from these solutions have been imaged by confocal laser scanning microscopy, and their moduli and stability have been measured by oscillatory rheology, using an in-house developed rheometric set-up. The results show that particles larger than 0.8 µm have little effect on the reduction of drainage while a clear strengthening effect on the foam was evident. This was a result of their diffusion to the lamellae borders, which increases the viscosity of the liquid–air interface. Particles smaller than 0.2 µm affect bubble coarsening and likely hinder the migration of soluble surface active species to the bubble surface. Particles also participate in the stabilization of the air–water interface, and this affects both the foam stability and mechanical properties. Established models developed for ideal foam systems containing particles are difficult to apply due to the complexity of the system studied. Despite this limitation, these results provide increased understanding of the effect of particles on instant coffee foams.

Foam microscopy

Surface tension



Instant coffee



R. Gmoser

SIK – Institutet för Livsmedel och Bioteknik AB

Romain Bordes

Chalmers, Kemi och kemiteknik, Tillämpad kemi, Teknisk ytkemi

SuMo Biomaterials

G. Nilsson

SIK – Institutet för Livsmedel och Bioteknik AB

A. Altskär

SIK – Institutet för Livsmedel och Bioteknik AB

Mats Stading

Chalmers, Material- och tillverkningsteknik, Polymera material och kompositer

Niklas Lorén

Chalmers, Fysik, Eva Olsson Group

SuMo Biomaterials

M. Berta

SIK – Institutet för Livsmedel och Bioteknik AB

European Food Research and Technology

1438-2377 (ISSN) 1438-2385 (eISSN)

Vol. 243 1 115-121


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