Electrochemical synthesis and characterization of high-purity cobalt nanostructures from CoCl2·6H2O dissolved in ethylene glycol-based nonaqueous solutions

Thuy, Hoang Thi Thanh; Ho, Nang Xuan; Duy, Vinh Nguyen; Thi, Thuy Cao; Anh, Tuan Pham; Morales-Gil, Perla; Palomar-Pardave, Manuel; Van Hieu, Nguyen; Chu, Thi-Xuan; Le Manh, Tu

doi:10.1007/s10008-023-05680-x

J Solid State Electrochem

2023

DOI: 10.1007/s10008-023-05680-x

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Electrochemical synthesis and characterization of high-purity cobalt nanostructures from CoCl2·6H2O dissolved in ethylene glycol-based nonaqueous solutions

Hoang Thi Thanh Thuy,

Nang Xuan Ho,

Vinh Nguyen Duy

et al.

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Cited by 2 publications

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Rapid Detection of Ultralow H₂S Concentration with on-chip Fabrication of SnO₂-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Do Van,

Van Hieu,

Yang

et al. 2024

J. Electrochem. Soc.

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Hydrogen sulfide (H2S) causes significant impacts on human health and the environment due to its highly toxic properties. Thus, the design and development of gas sensors to detect and monitor H2S (especially at extremely low concentrations) are challenging tasks for scientists. In this work, SnO2 gas sensors were successfully synthesized directly on a chip by Sn electrodeposition from ethylene glycol solutions + a post-treatment (calcination) stage (to form and stabilize SnO2). Mechanisms and kinetics of Sn electrodeposition on Pt microelectrodes were thoroughly studied using electrochemical techniques. These fabricated gas sensors exhibit a high selectivity toward H2S gas and an effective response to low-level concentrations of H2S in the range of 0.1 ppm–1 ppm at different working temperatures. The influence of electrodeposition conditions and calcination temperatures on the gas response of sensors were also examined. The results have verified that the electrodeposition method from ethylene glycol solutions is promising for the fabrication of ultrasensitive on-chip gas sensors.

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Rapid Detection of Ultralow H₂S Concentration with on-chip Fabrication of SnO₂-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Do Van,

Van Hieu,

Yang

et al. 2024

J. Electrochem. Soc.

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Advancements in Understanding Nucleation and Growth Phenomena Of Electrochemical Phase Formation Processes: Contributions from UAM Research

Palomar-Pardavé

2025

J. Mex. Chem. Soc.

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This work entails a review of the research conducted at “Universidad Autónoma Metropolitana”, UAM, on the nucleation and growth phenomena involved during the electrochemical phase formation processes (EPF). Specifically, these processes include metal electrodeposition, electrosynthesis of conductive polymers or synthetic metals, anodic film formation, and the electrochemical condensation of surfactant micelles. The primary contributions of these studies focus on developing chemical-physical theoretical models capable of determining the mechanism and kinetics of these EPF processes. This is achieved through the analysis of experimental potentiostatic current density transients recorded in both aqueous and deep eutectic solvents. Furthermore, the resulting modified electrodes are applied to various significant applications, such as green energy generation using direct alcohol fuel cells, the development of electrochemical sensors for neurotransmitters and other biologically important substances, and corrosion and environmental protection. Resumen. Este trabajo revisa la investigación realizada en la Universidad Autónoma Metropolitana (UAM) sobre los fenómenos de nucleación y crecimiento involucrados en los procesos de formación electroquímica de fases (EPF). Específicamente, estos procesos incluyen la electrodeposición de metales, la electrosíntesis de polímeros conductores o metales sintéticos, la formación de películas anódicas y la condensación electroquímica de micelas de surfactantes. Las principales contribuciones de estos estudios se centran en el desarrollo de modelos teóricos fisicoquímicos capaces de determinar los mecanismos y la cinética de estos procesos EPF. Esto se logra a través del análisis de transitorios potenciostáticos de densidad de corriente experimentales registrados en disolventes acuosos y eutécticos profundos. Además, los electrodos modificados resultantes se utilizan en diversas aplicaciones significativas, como la generación de energía verde mediante celdas de combustible de alcoholes directos, el desarrollo de sensores electroquímicos para neurotransmisores y otras sustancias biológicamente importantes, así como la protección contra la corrosión y la protección ambiental.

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Electrochemical synthesis and characterization of high-purity cobalt nanostructures from CoCl2·6H2O dissolved in ethylene glycol-based nonaqueous solutions

Cited by 2 publications

References 44 publications

Rapid Detection of Ultralow H₂S Concentration with on-chip Fabrication of SnO₂-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Rapid Detection of Ultralow H₂S Concentration with on-chip Fabrication of SnO₂-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Advancements in Understanding Nucleation and Growth Phenomena Of Electrochemical Phase Formation Processes: Contributions from UAM Research

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Electrochemical synthesis and characterization of high-purity cobalt nanostructures from CoCl2·6H2O dissolved in ethylene glycol-based nonaqueous solutions

Cited by 2 publications

References 44 publications

Rapid Detection of Ultralow H2S Concentration with on-chip Fabrication of SnO2-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Rapid Detection of Ultralow H2S Concentration with on-chip Fabrication of SnO2-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Advancements in Understanding Nucleation and Growth Phenomena Of Electrochemical Phase Formation Processes: Contributions from UAM Research

Contact Info

Product

Resources

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Rapid Detection of Ultralow H₂S Concentration with on-chip Fabrication of SnO₂-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents

Rapid Detection of Ultralow H₂S Concentration with on-chip Fabrication of SnO₂-based Gas Sensors by Direct Electrodeposition from Non-Aqueous Solvents