M
Mihail Barboiu
Researcher at University of Montpellier
Publications - 257
Citations - 6827
Mihail Barboiu is an academic researcher from University of Montpellier. The author has contributed to research in topics: Membrane & Supramolecular chemistry. The author has an hindex of 44, co-authored 239 publications receiving 5789 citations. Previous affiliations of Mihail Barboiu include University of Victoria & University of Provence.
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Self-sorting of equilibrating metallosupramolecular DCLs via constitutional crystallization
Mihail Barboiu,Florina Dumitru,Florina Dumitru,Yves-Marie Legrand,Eddy Petit,Arie van der Lee +5 more
TL;DR: DCLs of interexchanging metallosupramolecular subcomponents are generated that convert into robust species of unique stoichiometry via constitutional crystallization.
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Antifungal vanillin-imino-chitosan biodynameric films.
Luminita Marin,Iuliana Stoica,Mihai Mares,Valentina Dinu,Bogdan C. Simionescu,Mihail Barboiu,Mihail Barboiu +6 more
TL;DR: The chitosan-vanillin biopolymeric films described here present interesting Candida albicans antifungal activity compared with other common bacterial strands, which suggests the implementation of these biocompatible materials as thin layer protecting systems for medical devices.
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Artificial water channels – incipient innovative developments
TL;DR: The incipient developments of the first artificial water channel systems are discussed, known for fast water transport and complete proton/ion exclusion, are discussed.
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Oriented chiral water wires in artificial transmembrane channels
Istvan Kocsis,Mirco Sorci,Heather Vanselous,Samuel Murail,Stephanie E. Sanders,Erol Licsandru,Yves-Marie Legrand,Arie Van der Lee,Marc Baaden,Poul B. Petersen,Georges Belfort,Mihail Barboiu +11 more
TL;DR: This work demonstrates the first experimental observation of dipolar oriented water structures within artificial water channels inserted in bilayer membranes, and provides quantitative measures of hydrogen bond strength, connectivity, and the stability of their dipolar alignment in a membrane environment via molecular simulations.
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Constitutional Self-Selection of [2 × 2] Homonuclear Grids from a Dynamic Mixture of Copper(I) and Silver(I) Metal Complexes
TL;DR: This paper describes the controlled self-selection and quantitative parallel amplification of the homonuclear grid architectures derived from the same ligand 1 of different conformational geometries and Cu+ and Ag+ metal ions of different coordination behavior and ionic size.