S
Svetlana Zakharchenko
Researcher at Leibniz Association
Publications - 17
Citations - 847
Svetlana Zakharchenko is an academic researcher from Leibniz Association. The author has contributed to research in topics: Dynamic light scattering & Polyelectrolyte. The author has an hindex of 10, co-authored 17 publications receiving 727 citations. Previous affiliations of Svetlana Zakharchenko include Dresden University of Technology & Moscow State University.
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Journal ArticleDOI
Shape-programmed folding of stimuli-responsive polymer bilayers.
Georgi Stoychev,Svetlana Zakharchenko,Svetlana Zakharchenko,Sébastien Turcaud,John W. C. Dunlop,Leonid Ionov +5 more
TL;DR: It is argued that bilayers placed on a substrate start to roll from corners due to quicker diffusion of water, and the main reasons causing a variety of rolling scenarios are non-homogenous swelling due to the presence of the substrate and adhesion of the polymer to the substrate.
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Temperature controlled encapsulation and release using partially biodegradable thermo-magneto-sensitive self-rolling tubes
TL;DR: The suggested approach for controlled encapsulation and release of microparticles, cells and drugs using thin bilayer films of thermoresponsive and biodegradable polymers, which are able to form self-rolling tubes can be successfully implemented for controlled delivery of drugs and cells in living organisms and to design scaffolds for tissue engineering.
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Fully biodegradable self-rolled polymer tubes: a candidate for tissue engineering scaffolds.
TL;DR: An approach for the fabrication of fully biodegradable self-rolled tubes based on patterned polysuccinimide/polycaprolactone bilayers is reported and the possibility to encapsulate yeast cells using self-roll tubes is demonstrated.
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Dynamic and programmable self-assembly of micro-rafts at the air-water interface.
TL;DR: This work built an out-of-equilibrium material system by designing competing interactions that are both dissipative and programmable and demonstrates programmable self-assembly and shows that a 4-fold rotational symmetry encoded in individual micro-rafts translates into 90° bending angles and square-based tiling in the assembled structures of micro-RAFTs.
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Reversible thermosensitive biodegradable polymeric actuators based on confined crystallization.
Vladislav Stroganov,Mahmoud Al-Hussein,Jens-Uwe Sommer,Jens-Uwe Sommer,Andreas Janke,Svetlana Zakharchenko,Svetlana Zakharchenko,Leonid Ionov +7 more
TL;DR: The design of new generation of fully biodegradable thermoresponsive polymeric actuators, which are highly desirable for bionano-technological applications such as reversible encapsulation of cells and design of swimmers, are used.