Bruna F. Baggio scite author profile

The compound Prussian Blue (PB), and its reduced form Prussian White (PW) are nowadays considered, in applied and fundamental research groups, as potential materials for sustainable energy storage devices. In this work, these compounds were prepared by potentiostatic electrochemical synthesis, by using different deposition voltages and thicknesses. Thick, compact and uniform layers were characterized by scanning electron microscopy, X-ray diffraction, and Raman spectroscopy. Results have shown a well-defined transition voltage for growing Prussian Blue phases and a strong dependence of the morphology/growing orientation of the samples as a function of applied potential and thickness. For the negative potential tested of −0.10 V vs. SCE, a mixture of cubic and rhombohedral phases was observed.

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Resistive Switching in Electrodeposited Prussian Blue Layers

Junior

Müller

Hildebrand

et al. 2020

Materials

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Prussian blue (PB) layers were electrodeposited for the fabrication of Au/PB/Ag stacks to study the resistive switching effect. The PB layers were characterized by different techniques to prove the homogeneity, composition, and structure. Electrical measurements confirmed the bipolar switching behavior with at least 3 orders of magnitude in current and the effect persisting for the 200 cycles tested. The low resistance state follows the ohmic conduction with an activation energy of 0.2 eV.

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In Situ X-Ray Techniques for Electrochemical Interfaces

Baggio

Gründer

2021

Annual Rev. Anal. Chem.

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This article reviews progress in the study of materials using X-ray-based techniques from an electrochemistry perspective. We focus on in situ/in operando surface X-ray scattering, X-ray absorption spectroscopy, and the combination of both methods. The background of these techniques together with key concepts is introduced. Key examples of in situ and in operando investigation of liquid–solid and liquid–liquid interfaces are presented. X-ray scattering and spectroscopy have helped to develop an understanding of the underlying atomic and molecular processes associated with electrocatalysis, electrodeposition, and battery materials. We highlight recent developments, including resonant surface diffraction and time-resolved studies. Expected final online publication date for the Annual Review of Analytical Chemistry, Volume 14 is June 2021. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Enhancement of organic light-emitting diode light extraction by texturing PDMS layers

et al. 2014

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Single-Molecule Vibrational Spectroscopy: Cobalt Tetraphenylporphyrin Deposited on a Cu₂N Ultrathin Insulating Layer

et al. 2021

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The electronic and vibrational properties of cobalt tetraphenylporphyrin (CoTPP) molecules deposited onto a Cu 2 N−Cu(100) surface were studied by scanning tunneling microscopy. The Cu 2 N spacer layer promoted the decoupling between the localized electronic states of CoTPP and the metallic substrate, enabling the observation of electronic states of nearly free molecules. The experimental results are supported by ab initio calculations, and the correspondence with C−H and C−C bonding vibrations detected by inelastic electron tunneling spectroscopy (IETS) has been shown. For molecules adsorbed at the interface between Cu 2 N and Cu, the IETS signal was also observed.

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Bruna F. Baggio

Morphology and Structure of Electrodeposited Prussian Blue and Prussian White Thin Films

Resistive Switching in Electrodeposited Prussian Blue Layers

In Situ X-Ray Techniques for Electrochemical Interfaces

Enhancement of organic light-emitting diode light extraction by texturing PDMS layers

Single-Molecule Vibrational Spectroscopy: Cobalt Tetraphenylporphyrin Deposited on a Cu₂N Ultrathin Insulating Layer

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Bruna F. Baggio

Morphology and Structure of Electrodeposited Prussian Blue and Prussian White Thin Films

Resistive Switching in Electrodeposited Prussian Blue Layers

In Situ X-Ray Techniques for Electrochemical Interfaces

Enhancement of organic light-emitting diode light extraction by texturing PDMS layers

Single-Molecule Vibrational Spectroscopy: Cobalt Tetraphenylporphyrin Deposited on a Cu2N Ultrathin Insulating Layer

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Product

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Single-Molecule Vibrational Spectroscopy: Cobalt Tetraphenylporphyrin Deposited on a Cu₂N Ultrathin Insulating Layer