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Synthesis of coral-like structures of pr-Yb co-doped YIG: Structural,optical, magnetic and antimicrobial properties

Journal of Rare Earths 2024年第3期42卷 543-554,I0004页

作者： A.Fernandez francisca p.araujo Y.Guerra S.Castro-Lopes J.Matilla-Arias Idglan S.de Lima Edson C.Silva-Filho Josy A.Osajima F.Guerrero R.pena-Garcia Federal University of piau Graduate Program in Materials Science and EngineeringTeresinaPIBrazil Federal Rural University of pernambuco Academic Unit of Cabo de Santo AgostinhoCabo de Santo AgostinhoPEBrazil Federal University of piaui Department of PhysicTeresinaPBrazil Federal University of pernambuco Graduate Program in Materials ScienceRecifePEBrazil University of Granma Departmentof Basic Sciences and Applied InformaticsFaculty of Technical SciencesBayamoCuba Federal University of Amazonas Department of PhysicManausAMBrazil Federal University of pernambuco Department of PhysicRecifePEBrazil

Coral-like structures of the Y_(3-x)pr_(x)Fe_(5-y)Yb_(y)O_(12),(0.00 ≤ x ≤ 0.04, 0.00 ≤ y ≤ 0.02) compound were synthesized using the sol-gel method. Structural investigation certified the YIG cubic crystal structure formation, without any secondary phase. It is shown that, the relatively large ionic radius of the dopant cations results in an expansion of the lattice parameter, variations in the Iona-O-Iondangle, Iona-O,Iond-O and Ionc-O bond distances and decrease in the average crystallite size. Fourier transform infrared(FTIR) and Raman measurements are essential to testify the single-phase formation of YIG crystal structure and are observed changes in the stretching and vibrational modes, respectively. The morphological study, energy dispersive spectroscopy(EDS) spectra and textural properties show corallike structures, peaks associated with pr^(3+) and Yb^(3+) atoms and the effect of dopants on surface area,diameter, and pore volume, respectively. The optical analysis from diffuse reflectance spectra witnessed an increase in the optical gap band, a decrease in Urbach energy and blue shift in the charge transfer,correlated with the expansion of the unit cell due to the dopant's insertion in the YIG structure. A typical ferrimagnetic behavior is exhibited by the Y_(3-x)pr_(x)Fe_(5-y)Yb_(y)O_(12)compound. The saturation magnetization(M_(s)), cubic anisotropy constant(K_(1)) and coercive field(H_(c)) increase with the pr^(3+)cations content, as consequence of their magnetic nature and distribution around of Fe^(3+)ions due to the coexistence with the Yb^(3+). Finally, for the first time, antibacterial tests by mean of the direct contact method were performed for YIG co-doped with pr^(3+)and Yb^(3+)and it is shown that, relatively high dosages of pr^(3+) cations favored the activity against S. aureus, therefore, a new biological property for YIG doped with rare earths is presented.

关键词： Yttrium iron garnet(YIG) Coral-like structures Rare earths Band gap energy Magnetic properties Antimicrobial properties

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A prospective cancer chemo-immunotherapy approach mediated by synergistic CD326 targeted porous silicon nanovectors

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Nano Research 2015年第5期8卷 1505-1521页

作者： Mohammad-Ali Shahbazi Neha Shrestha Ermei Makila francisca araujo Alexandra Correia Tomas Ramos Bruno Sarmento Jarno Salonen Jouni Hirvonen Helder A. Santos Division of pharmaceutical Chemistry and Technology Faculty of Pharmacy University ofHelsinki FI-00014 Helsinki Finland Laboratory of Industrial physics Departmen t of Physics and Astronomy University of Turku FI-20014 Turku Finland INEB - Instituto de Engenharia Biomedica NewTherapies Group Universidade do Porto Rua do Campo Alegre 823 4150-180 Porto Portuga ICBAS - Instituto Ciencias Biomedicas Abel Salazar University of Porto Rua de Jorge Viterbo Ferreira 4050-313 Porto Portugal Faculty of pharmacy University of Coimbra 3000-548 Coimbra Portugal IINFACTS - Instituto de Investigacao e Formacao Avancada em Ciencias e Tecnologias da Saude Instituto Superior de Ciencias da Saude-Norte Department of Pharmaceutical Sciences CESPU Rua Central de Gandra 4585-116 Gandra Portugal

Combination therapy via nanoparticulate systems has already been proposed as a synergistic approach for cancer treatment. Herein, undecylenic acid modified thermally hydrocarbonized porous silicon nanoparticles （UnTHCpSi Nps） loaded with sorafenib and surface-biofunctionalized with anti-CD326 antibody （Ab） were developed for cancer chemo-immunotherapy in MCF-7 and MDA-MB-231 breast cancer cells. The cytocompatibility study showed no significant toxicity for the bare and antibody-conjugated UnTHCpSi （Un-Ab） Nps at concentrations lower than 200 μg·mL^-1. Compared to the bare UnTHCpSi, Un-Ab Nps loaded with sorafenib reduced the premature drug release in plasma, increasing the probability of proper drug targeting. In addition, high cellular interaction and subsequent internalization of the Un-Ab Nps into the cells expressing CD326 antigen demonstrated the possibility of improving antigen-mediated endocytosis via CD326 targeting. While an in vitro antitumor study revealed a higher inhibitory effect of the sorafenib-loaded Un-Ab Nps compared to the drug-loaded UnTHCpSi Nps in the CD326 positive MCF-7 cells, there was no difference in the anti-proliferation impact of both the abovementioned Nps in the CD326 negative MDA-MB-231 cells, suggesting CD326 as an appropriate receptor for Ab-mediated drug delivery. It was also shown that the anti-CD326 Ab can act as an immunotherapeutic agent by inducing antibody dependent cellular cytotoxicity and enhancing the interaction of effector immune and cancer cells for subsequent phagocytosis and cytokine secretion. Hence, the developed nanovectors can be applied for simultaneous tumor-selective drug targeting and immunotherapy.

关键词： CD326 antibody porous silicon nanopartides chemo-immunotherapy breast cancer drug targeting

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