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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!

Highlighted papers

"Small crowders slow down kinesin-1 stepping by hindering motor domain diffusion", Sozanski K. et al.Phys. Rev. Lett. 2015 "Activation energy for mobility of dyes and proteins in polymer solutions: from diffusion of single particles to macroscale flow", Sozanski et al.Phys. Rev. Lett. 2013
"Comparative analysis of viscosity of complex liquids and cytoplasm of mammalian cells at the nanoscale", Kalwarczyk T. et al.Nano Letters 2011
"Diffusion and viscosity in a crowded environment: from nano-to macroscale", Szymanski J. et al.J. Phys. Chem. B 2006
"A molecular dynamics test of the Hertz–Knudsen equation for evaporating liquids", Holyst R.et al.Soft Matter 2015
"Nanoscale transport of energy and mass flux during evaporation of liquid droplets into inert gas: computer simulations and experiments", Holyst R. et al., Soft Matter 2013 
"Quantitative influence of macromolecular crowding on gene regulation kinetics", Tabaka M. et al.Nucleic acids research 2013
"Biologistics—diffusion coefficients for complete proteome of Escherichia coli", Kalwarczyk T. et al., Bioinformatics 2012

 

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