A
Ali Bagheri
Researcher at University of Auckland
Publications - 32
Citations - 1751
Ali Bagheri is an academic researcher from University of Auckland. The author has contributed to research in topics: Chain transfer & Polymerization. The author has an hindex of 14, co-authored 21 publications receiving 1006 citations. Previous affiliations of Ali Bagheri include University of New England (Australia) & University of New South Wales.
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Journal ArticleDOI
Photopolymerization in 3D Printing
Ali Bagheri,Jianyong Jin +1 more
TL;DR: The field of 3D printing is continuing its rapid development in both academic and industrial research environments as mentioned in this paper, which offers flexibility over the final properties of the 3D printed materials (such as optical, chemical and mechanical properties) using versatile polymer chemistry.
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Recent advances in ordered meso/macroporous metal oxides for heterogeneous catalysis: a review
TL;DR: In this paper, a review examines the recent developments in ordered meso- and macro-porous metal oxide catalysts for heterogeneous catalysis, and outlines the current challenges in the field of nanoparticle-based catalysis.
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Lanthanide-Doped Upconversion Nanoparticles: Emerging Intelligent Light-Activated Drug Delivery Systems.
TL;DR: This review focuses on recent advances in the development of NIR‐initiated DDS, with emphasis on the use of photo‐responsive compounds and polymeric materials conjugated onto UCNPs.
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A Versatile 3D and 4D Printing System through Photocontrolled RAFT Polymerization
TL;DR: A rapid visible light mediated RAFT polymerization process that provided facile spatial control over the network structure by varying the light dose to each layer of the 3D printed material and enabled post functionalization of the printed materials via secondary photopolymerization processes.
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Nitric Oxide-Loaded Antimicrobial Polymer for the Synergistic Eradication of Bacterial Biofilm
Rashin Namivandi-Zangeneh,Zahra Sadrearhami,Ali Bagheri,Maeva Sauvage-Nguyen,Maeva Sauvage-Nguyen,Kitty K. K. Ho,Naresh Kumar,Edgar H. H. Wong,Cyrille Boyer +8 more
TL;DR: The synthesis of a novel antimicrobial/antibiofilm polymer that consists of biocompatible oligoethylene glycol, hydrophobic ethylhexyl, cationic primary amine, and nitric oxide-releasing functional groups has dual-action capability as it can release NO which triggers the dispersion of biofilm, whereas the polymer can induce bacteria cell death via membrane wall disruption.