Vitor de Moraes Zamarion scite author profile

A hybrid material with excellent mechanical and biological properties is produced by electrospinning a co-solution of PET and collagen. The fibers are mapped using SEM, confocal Raman microscopy and collagenase digestion assays. Fibers of different compositions and morphologies are intermingled within the same membrane, resulting in a heterogeneous scaffold. The collagen distribution and exposure are found to depend on the PET/collagen ratio. The materials are chemically and mechanically characterized and biologically tested with fibroblasts (3T3-L1) and a HUVEC culture in vitro. All of the hybrid scaffolds show better cell attachment and proliferation than PET. These materials are potential candidates to be used as vascular grafts.

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Estudos e aplicações de ressonância plasmônica superficial em nanosondas SERS

Zamarion¹,

Toma²

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SERS studies of isolated and agglomerated gold nanoparticles functionalized with a dicarboxybipyridine‐trimercaptotriazine‐ruthenium dye

Grasseschi

Parussulo

Zamarion

et al. 2014

J Raman Spectroscopy

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A dicarboxybipyridine‐trimercaptotriazine ruthenium complex, primarily designed for dye solar cells, has been successfully employed for generating electrostatically stabilized gold colloids, because of its high negative charge and capability of binding to gold nanoparticles via the sulfur groups. Surprisingly, a strong surface‐enhanced Raman scattering enhancement has been observed for the isolated nanoparticles, exceeding those recorded after inducing agglomeration. Such unusual response has been ascribed to the predominant contribution of the charge‐transfer and resonance Raman mechanisms, more than compensating for the lack of the local hot spots, in relation to the agglomerated systems. Copyright © 2014 John Wiley & Sons, Ltd.

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Probing the dynamics of dithiooxamide coordinated to gold nanoparticles using SERS

Grasseschi

Zamarion

Toma

2018

J Raman Spectroscopy

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The substitution kinetics and specific binding modes of the dithiooxamide (dto) ligand at the metal surface have been investigated and interpreted on the light of theoretical and experimental Raman studies. By monitoring the vibrational properties of this ligand, it was shown that gold nanoparticles employed as surface‐enhanced effects (SERS) probes are strongly dependent on the coordination chemistry of the ligands at the metal interface. The binding of dto to the gold nanoparticles led to linkage isomers, and at low concentrations, the bidentate form, corresponding to bis‐thione‐Au bond in cis configuration {Au‐S(NH2)CC(NH2)S‐Au}, was the predominating species. Even at high concentrations, the cis‐configuration was observed first; but as the ligand competition dynamics proceeded, the binding mode gradually changed into a monodentate thione‐Au mode {AuS(NH2)CCS(NH2)}. In this mode, the dto ligand adopts a thermodynamically favorable trans‐conformation geometry, producing dramatic changes in the SERS spectra. Such dynamic behavior of the ligand at the metal plasmonic surface is of crucial importance, as one of the possible factors associated with lack of reproducibility of the SERS spectra frequently reported in the literature.

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Hard-templating of Prussian blue analogues in mesoporous silica and organosilica

et al. 2015

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Prussian blue analogues (PBAs) have been constructed in chiral nematic mesoporous organosilica and silica templates. By functionalizing the surface of the mesoporous hosts with bipyridinium ligands, it was possible to construct PBAs in their interiors through hard templating. The optical properties of the composites were studied and the relationship between the circular dichroism (CD) signals and the UV-Vis absorption spectra was found through mathematical modeling. Efforts to remove the hard templates to give free-standing PBA films with high surface area and pore volume were met with limited success, but it was possible in the case of zinc/iron PBAs to obtain a highly porous PBA sponge that retained the overall morphology of the template. This work demonstrates the potential for hard templating of coordination polymers in mesoporous materials.

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