Mateus Perissé Moreira scite author profile

Em complemento à série de artigos relacionada a nanopartículas metálicas aplicadas em plasmônica, o objetivo desta revisão é transcorrer sobre os principais fatores que influenciam no processo de obtenção desse tipo de material. Dessa forma, o artigo se divide em duas partes principais: 1) Mecanismo, em que é dado uma ideia geral a respeito da evolução dos conceitos envolvidos nas etapas de nucleação e crescimento de nanopartículas metálicas, assim como, uma discussão sobre os parâmetros que favorecem o controle da reação por via cinética ou termodinâmica. Adicionalmente, as principais estratégias utilizadas para controle de composição e forma, além de uma breve explanação sobre a química da superfície dos produtos obtidos também são apresentadas. 2) Síntese, nesta seção são demonstradas as principais metodologias para a obtenção de nanopartículas metálicas em escala laboratorial, sendo elas, as em batelada e por via eletroquímica, além da discussão sobre os métodos em fluxo, que, acredita-se ser a estratégia mais eficiente e viável para a obtenção de nanopartículas em larga escala.

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Ferrocene-Based Porous Organic Polymer (FPOP): Synthesis, Characterization and an Electrochemical Study

Petrovski

Moreira

Santos

et al. 2022

Electrochem

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Ferrocene-based porous organic polymers (FPOPs) were prepared from phenol-formaldehyde polymer (Bakelite) and phenol as starting materials; and two possible mechanisms for polymerization were discussed. Solid-state 13C CP-MAS NMR, FTIR, powder XRD, elemental analysis and ICP (Fe, Na, B) were performed to characterize the prepared materials. The two synthetic approaches produced polymers with different pore sizes: the FPOP synthesized through Bakelite presented a higher surface area (52 m2 g−1) when compared to the one obtained by the bottom-up polymerization from phenol (only 5 m2 g−1). Thermogravimetric analysis confirmed the thermal stability of the material, which decomposed at 350 °C. Furthermore, cyclic voltammetry (CV) of the new FPOP on modified electrodes, in ACN and 0.1 M TBAP as an electrolyte, showed fully reversible electron transfer, which is similar to that observed for the ferrocene probe dissolved in the same electrolyte. As a proof-of-concept for an electrochromic device, this novel material was also tested, with a color change detected between yellow/brownish coloration (reduced form) and green/blue coloration (oxidized form). The new hybrid FPOP seems very promising for material science, energy storage and electrochromic applications, as well as for plastic degradation.

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Mateus Perissé Moreira

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Ferrocene-Based Porous Organic Polymer (FPOP): Synthesis, Characterization and an Electrochemical Study

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