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ZB 10 - Soft Condensed Matter (R. Holyst)

We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!

Publication

Motion of nanoprobes in complex liquids within the framework of the length-scale dependent viscosity model

Author(s): Kalwarczyk, Tomasz and Sozanski, Krzysztof and Ochab-Marcinek, Anna and Szymanski, Jedrzej and Tabaka, Marcin and Hou, Sen and Holyst, Robert
Title: Motion of nanoprobes in complex liquids within the framework of the length-scale dependent viscosity model
Abstract: This paper deals with the recent phenomenological model of the motion of objects (colloidal particles, proteins, nanoparticles, in complex liquids. We analysed motion in polymer, micellar, and protein solutions and the cytoplasm of living cells using length-scale dependent viscosity model. Viscosity monotonically macroscopic viscosity as the size of the object increases and gives a single, coherent picture of motion at the nano and macro The model includes interparticle interactions (solventsolute), and the internal structure of a complex liquid. The layer ubiquitously occurring in complex liquids is also into the model. We also discuss the biological aspects of in terms of the length-scale dependent viscosity model. (C) 2015 Elsevier B.V. All rights reserved.
Pages: 55-63
Journal: ADVANCES IN COLLOID AND INTERFACE SCIENCE
Volume: 223
ID: ISI:000360774400003
Year: 2015
DOI: 10.1016/j.cis.2015.06.007