M
Mikhail A. Kiselev
Researcher at Joint Institute for Nuclear Research
Publications - 90
Citations - 3069
Mikhail A. Kiselev is an academic researcher from Joint Institute for Nuclear Research. The author has contributed to research in topics: Membrane & Vesicle. The author has an hindex of 27, co-authored 85 publications receiving 2414 citations. Previous affiliations of Mikhail A. Kiselev include University of Paris-Sud & Kurchatov Institute.
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Smart Nanoparticles for Drug Delivery Application: Development of Versatile Nanocarrier Platforms in Biotechnology and Nanomedicine
TL;DR: Recent advances of smart nanocarriers composed of organic and inorganic materials offering a wide range of functional nanoplatforms for smart application in biotechnology and nanomedicine are highlighted.
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Amphiphiles Self-Assembly: Basic Concepts and Future Perspectives of Supramolecular Approaches
TL;DR: This tutorial review the basic concept and recent research on self-assembly of traditional amphiphilic molecules and more recent concepts of supramolecular amphiphiles assembly which have become increasingly important in emerging nanotechnology.
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Determination of bilayer thickness and lipid surface area in unilamellar dimyristoylphosphatidylcholine vesicles from small-angle neutron scattering curves: a comparison of evaluation methods
TL;DR: Small-angle neutron scattering (SANS) experiments were performed on unilamellar 1,2-dimyristoylphosphatidylcholine vesicles prepared in heavy water by extrusion through polycarbonate filters with 500 Å pores and it is shown that the results obtained are not sensitive to the vesicle form factor, nor to the evaluation method.
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Soft Interaction in Liposome Nanocarriers for Therapeutic Drug Delivery.
TL;DR: Recent advances inliposome drug delivery are presented by analyzing the main structural features of liposome nanocarriers which strongly influence their interaction in solution by outlining the main structure-properties relationships as well as their advantages (and drawbacks) in therapeutic and biomedical applications.
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Lipid Membrane Structure and Interactions in Dimethyl Sulfoxide/Water Mixtures
TL;DR: DMSO strongly interacts with the membrane surface, probably displacing water and modifying the structure of the lipid bilayer, and appears to determine some of the properties of DMSO as a biologically and therapeutically active substance.