Browsing by Author "Dang, Y"

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    Silver─gallium nano-amalgamated particles as a novel, biocompatible solution for antibacterial coatings
    (Wiley, 2023-11-05) Nguyen, TT; Zhang, PF; Bi, JW; Nguyen, NH; Dang, Y; Xu, ZN; Wang, H; Ninan, N; Bright, R; Pham, T; Nguyen, CK; Sabri, YM; Nguyen, MT; Vingsvivut, JP; Zhao, YP; Vasilev, K; Truong, VK
    Bacterial infections account for countless deaths globally. Antibiotics are the primary countermeasure; however, the alarming spread of antibiotic-resistant strains necessitates alternative solutions. Silver and silver compounds have emerged as promising antibacterial agents. However, issues related to cytotoxicity and genotoxicity of silver remain concern. To overcome these challenges, this proposes an easy-to-control and straightforward method to synthesize novel Silver─gallium (Ag─Ga) nano-amalgamated particles. Gallium liquid metal (GaLM) is used to facilitate the galvanic deposition of silver nanocrystals (Ag) on oxide layer. The GaLM not only serves as a carrier for silver through the galvanic replacement process, but also provides a controlled-release mechanism for silver, in this way improving biocompatibility, reducing inflammation, and stimulating bone growth. Notably, Ag─Ga suspensions can be conveniently deposited by spray-coating on a range of devices and material surfaces, effectively eliminating pathogenic bacteria with efficacy comparable to that of silver ions. In vivo studies in rat models affirm the antibacterial capabilities, especially against methicillin-resistant Staphylococcus aureus and Escherichia coli, when placed on implants such as titanium rods and magnesium discs. Furthermore, Ag─Ga promotes bone matrix formation and collagen growth without eliciting an inflammatory response, indicating a major promise for coatings on a wide variety of biomedical devices and materials. © 2023 The Authors. Published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License.
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    Unexpectedly enhanced solubility of aromatic amino acids and peptides in an aqueous solution of divalent transition-metal cations
    (American Physical Society, 2016-12-02) Shi, GS; Dang, Y; Pan, TT; Liu, X; Liu, H; Li, S; Zhang, LJ; Zhao, HW; Li, SP; Han, JG; Tai, RZ; Zhu, Y; Li, J; Ji, Q; Mole, RA; Yu, DH; Fang, HP
    We experimentally observed considerable solubility of tryptophan (Trp) in a CuCl2 aqueous solution, which could reach 2-5 times the solubility of Trp in pure water. Theoretical studies show that the strong cation-π interaction between Cu2+ and the aromatic ring in Trp modifies the electronic distribution of the aromatic ring to enhance significantly the water affinity of Trp. Similar solubility enhancement has also been observed for other divalent transition-metal cations (e.g., Zn2+ and Ni2+), another aromatic amino acid (phenylalanine), and three aromatic peptides (Trp-Phe, Phe-Phe, and Trp-Ala-Phe). © 2016 American Physical Society.