Your search keyword '"Gianlorenzo Bussetti"' showing total 2 results

1. Optical Anisotropy of Porphyrin Nanocrystals Modified by the Electrochemical Dissolution

Author

Rossella Yivlialin, Claudia Filoni, Francesco Goto, Alberto Calloni, Lamberto Duò, Franco Ciccacci, and Gianlorenzo Bussetti

Subjects

reflectance spectroscopy, porphyrin, dissolution, organic crystals, cyclic voltammetry, AFM, Organic chemistry, QD241-441

Abstract

Reflectance anisotropy spectroscopy (RAS) coupled to an electrochemical cell represents a powerful tool to correlate changes in the surface optical anisotropy to changes in the electrochemical currents related to electrochemical reactions. The high sensitivity of RAS in the range of the absorption bands of organic systems, such as porphyrins, allows us to directly correlate the variations of the optical anisotropy signal to modifications in the solid-state aggregation of the porphyrin molecules. By combining in situ RAS to electrochemical techniques, we studied the case of vacuum-deposited porphyrin nanocrystals, which have been recently observed dissolving through electrochemical oxidation in diluted sulfuric acid. Specifically, we could identify the first stages of the morphological modifications of the nanocrystals, which we could attribute to the single-electron transfers involved in the oxidation reaction; in this sense, the simultaneous variation of the optical anisotropy with the electron transfer acts as a precursor of the dissolution process of porphyrin nanocrystals.

Published

2022

2. Compared EC-AFM Analysis of Laser-Induced Graphene and Graphite Electrodes in Sulfuric Acid Electrolyte

Author

Claudia Filoni, Bahram Shirzadi, Marco Menegazzo, Eugenio Martinelli, Corrado Di Natale, Andrea Li Bassi, Luca Magagnin, Lamberto Duò, and Gianlorenzo Bussetti

Subjects

laser-induced graphene, Kapton, graphite foils, graphite, EC-AFM, Raman spectroscopy, Organic chemistry, QD241-441

Abstract

Flexible and economic sensor devices are the focus of increasing interest for their potential and wide applications in medicine, food analysis, pollution, water quality, etc. In these areas, the possibility of using stable, reproducible, and pocket devices can simplify the acquisition of data. Among recent prototypes, sensors based on laser-induced graphene (LIGE) on Kapton represent a feasible choice. In particular, LIGE devices are also exploited as electrodes for sensing in liquids. Despite a characterization with electrochemical (EC) methods in the literature, a closer comparison with traditional graphite electrodes is still missing. In this study, we combine atomic force microscopy with an EC cell (EC-AFM) to study, in situ, electrode oxidation reactions when LIGE or other graphite samples are used as anodes inside an acid electrolyte. This investigation shows the quality and performance of the LIGE electrode with respect to other samples. Finally, an ex situ Raman spectroscopy analysis allows a detailed chemical analysis of the employed electrodes.

Published

2021