M
Michal Banaszak
Researcher at Adam Mickiewicz University in Poznań
Publications - 57
Citations - 1752
Michal Banaszak is an academic researcher from Adam Mickiewicz University in Poznań. The author has contributed to research in topics: Monte Carlo method & Copolymer. The author has an hindex of 18, co-authored 54 publications receiving 1593 citations. Previous affiliations of Michal Banaszak include University of Wyoming & North Carolina State University.
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Great expectations: can artificial molecular machines deliver on their promise?
Ali Coskun,Ali Coskun,Michal Banaszak,R. Dean Astumian,J. Fraser Stoddart,J. Fraser Stoddart,Bartosz A. Grzybowski +6 more
TL;DR: This tutorial review seeks to draw an all-important distinction between artificial molecular switches which are now ten a penny-or a dime a dozen-in the chemical literature and artificial molecular machines which are few and far between despite the ubiquitous presence of their naturally occurring counterparts in living systems.
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Copolymer SAFT Equation of State. Thermodynamic Perturbation Theory Extended to Heterobonded Chains
TL;DR: In this paper, the TPT1 formalism is extended to heterobonded chains, such as heteronuclear and branched copolymers, and a new copolymer equation of state, referred to as Copolymer SAFT (Statistical Associating Fluid Theory), explicitly accounts for the effects of chain heterogeneity and microstructure.
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Thermodynamic perturbation theory: Sticky chains and square-well chains
TL;DR: It is demonstrated that the effect of chain connectivity is to reduce the attraction contributions to the compressibility factor and to the critical temperatures.
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Thermodynamic perturbation theory: Lennard‐Jones chains
TL;DR: In this article, the compressibility factors for freely-jointed Lennard-Jones chains are determined in the context of Wertheim's first-order thermodynamic perturbation theory (TPT1).
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Lévy-like movement patterns of metastatic cancer cells revealed in microfabricated systems and implicated in vivo
Sabil Huda,Bettina Weigelin,Bettina Weigelin,Katarina Wolf,Konstantin V. Tretiakov,Konstantin Polev,Gary Wilk,Masatomo Iwasa,Fateme S. Emami,J. W. Narojczyk,Michal Banaszak,Siowling Soh,Didzis Pilans,Amir Vahid,Monika A. Makurath,Peter Friedl,Peter Friedl,Gary G. Borisy,Kristiana Kandere-Grzybowska,Bartosz A. Grzybowski +19 more
TL;DR: Large-scale statistics for cells migrating on linear microtracks are analyzed to show that metastatic cancer cells follow a qualitatively different movement strategy than their non-invasive counterparts.