A
Antoniya Toncheva
Researcher at University of Mons
Publications - 31
Citations - 977
Antoniya Toncheva is an academic researcher from University of Mons. The author has contributed to research in topics: Electrospinning & Chemistry. The author has an hindex of 15, co-authored 25 publications receiving 703 citations. Previous affiliations of Antoniya Toncheva include Bulgarian Academy of Sciences.
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Shape-memory polymers for multiple applications in the materials world
TL;DR: In this paper, a brief review of the recent trends in the field of shape-memory polymers is presented with particular focus on their structure, shapememory effects and working mechanism, and a special attention is paid to smart multi-responsive and multi-functional SMP materials as emerging technological class.
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Polylactide (PLA)-Based Electrospun Fibrous Materials Containing Ionic Drugs as Wound Dressing Materials: A Review
TL;DR: In this article, the main approaches used for the preparation of electrospun drug-loaded materials: electrospinning of a mixed solution containing the polymer(s) and the drug(s).
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Antibacterial fluoroquinolone antibiotic-containing fibrous materials from poly(l-lactide-co-d,l-lactide) prepared by electrospinning
TL;DR: It was found that the release profiles of the antibiotics did not depend on the antibiotic nature but were dependent on the fiber composition, and the presence of PEG in the fibers allowed a more rapid antibiotic release within the first 2h of release.
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Poly(L-lactide) and poly(butylene succinate) immiscible blends: from electrospinning to biologically active materials.
Nikoleta Stoyanova,Dilyana Paneva,Rosica Mincheva,Antoniya Toncheva,Nevena Manolova,Philippe Dubois,Iliya Rashkov +6 more
TL;DR: Electrospinning using the solvent-nonsolvent approach proved most appropriate and electrospinning revealed crucial for the obtaining of PLA/PBS materials maintaining integrity, suggesting that the obtained mats can find application as antibacterial fibrous materials.
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Hierarchical chemomechanical encoding of multi-responsive hydrogel actuators via 3D printing
Jérémy Odent,Sophie Vanderstappen,Antoniya Toncheva,Antoniya Toncheva,Enzo Pichon,Thomas J. Wallin,Thomas J. Wallin,Kaiyang Wang,Robert F. Shepherd,Philippe Dubois,Jean-Marie Raquez +10 more
TL;DR: A family of multi-responsive hydrogel-based actuators capable of rapid and controllable motion in response to any immediate environmental change is demonstrated towards the 3D-printing of functionally graded structures that are encoded with anisotropic swelling behavior.