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- Unraveling the nutraceutical potential of Salicornia ramosissima by-product – impact of gastrointestinal digestion and intestinal permeability on in vitro bioactivityPublication . Pinto, Diana; Santos, Inês; Delerue-Matos, Cristina; Teixeira, Filipa; Sut, Stefania; Dall’Acqua, Stefano; Vieira, Mónica; Rodrigues, Francisca; Almeida Vieira, Mónica AndreiaSalicornia ramosissima by-product (SP) is an underexploited antioxidant-rich by-product. This study explored the phytochemical profile, bioaccessibility, and biological activity of SP before and after extraction (SBE and SAE, respectively) upon gastrointestinal simulated digestion and intestinal permeability. The phenolic and flavonoid concentrations increased during digestion, reaching bioaccessibility rates above 95 % for both SBE and SAE. Promising antioxidant/antiradical properties and neuroprotective effects were attested upon digestion. Regarding the phytochemical profile, 17 compounds were identified, including (di)caffeoylquinic acids, gallocatechin, and triterpenoid saponins. The intestinal absorption of bioactive compounds from SAE and SBE intestinal digests was proven through a Caco-2/HT29-MTX cells co-culture model, with 4-caffeoylquinic acid (34.84 %) and 4,5-dicaffeoylquinic acid (26.73 %) reaching the highest permeation rates after 4 h, respectively, for SAE and SBE. These findings support the harnessing of SP as a promising functional and nutraceutical ingredient rich in pro-healthy compounds with proven bioactivity upon in vitro digestion and intestinal permeation.
- Microstructure, Mechanical, and Tribological Properties of Mo2N/Ag-SiNx Nanomultilayers with Varying Modulation PeriodsPublication . Fernandes, Filipe; Luan, Jing; Wang, Lei; Dong, Songtao; Ferreira, Fábio; Mo, Changpan; Cavaleiro, Albano; Ju, Hongbo; Kiryukhantsev-Korneev, PhilippThe multilayered Mo2N/Ag-SiNx self-lubricant films were designed and deposited using a DC (Direct Current) magnetron sputtering system under mixed gas atmosphere of N2 and Ar. The modulation ratio (thickness ratio of Mo2N to Ag-SiNx) was fixed at 2:1, while the modulation periods (thickness of Mo2N and its adjacent Ag-SiNx layer) were set at 20, 40, and 60 nm. The results indicated that all multilayer films, regardless of modulation period, exhibited a combination of face-centered cubic (fcc) and amorphous phases. Specifically, fcc-Mo2N was detected in the Mo2N layers, while fcc-Ag and amorphous SiNx co-existed in the Ag-SiNx layers. The multilayered architecture induced residual stress and interface strengthening, resulting in hardness values exceeding 21 GPa for all films. Compared to Mo2N and Ag-SiNx monolayer films, the multilayer structure significantly enhanced tribological properties at room temperature, particularly in terms of wear resistance. The Mo2N/Ag-SiNx multilayer films exhibit ~25% lower friction than Ag-SiNx, ~3% lower than Mo2N, and achieve remarkable wear rate reductions of ~71% and ~85% compared to Ag-SiNx and Mo2N, respectively, demonstrating superior tribological performance. The synergistic effects of both modulation layers and relative high hardness were key factors contributing to the enhanced tribological behavior.