Lander Rojo scite author profile

Li 2 CO 3 sputtered films of 300 nm have been subjected to physical and electrochemical characterization methods to analyze the influence of annealing treatments at 600°C for 2 h, 6 h, 12 h and 18 h on the microstructure, surface and conductivity. X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), atomic force microscopy (AFM) and electrochemical impedance spectroscopy (EIS) have been used for this purpose. XRD and FT-IR have illustrated the evolution of the microstructure with annealing time.AFM analysis has shown the growth of new Li 2 CO 3 particles that increases with annealing time presenting a maximum diameter of 16.8 μm without compromising the continuity of the films. EIS measurements have described a fall in the activation energy of the Li 2 CO 3 thin films presenting a minimum around 1.18 eV. The results concerning the activation energy of the films have shown an improvement compared to the results obtained previously for Li 2 CO 3 . These results serve to understand and optimize the behaviour of the Li 2 CO 3 thin films in gas sensors, fuel cells or Li + ion batteries.

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Li₂CO₃thin films fabricated by sputtering techniques: the role of temperature on their properties

Rojo

Castro-Hurtado

Morant‐Miñana³

et al. 2014

CrystEngComm

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Thin‐film Potentiometric Sensor to Detect CO₂ Concentrations Ranging Between 2 % and 100 %

Rojo¹,

Castro-Hurtado²,

Mandayo³

et al. 2017

Electroanalysis

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A potentiometric thin‐film sensor to detect CO2 in a wide range (2–100 %) has been developed. The system has been fabricated depositing a reference electrode of Pt, a solid electrolyte of YSZ (Yttria‐stabilized Zirconia), a sensing phase made of Li2CO3 and a working electrode of Au via Physical Vapor Deposition (PVD). Characterization of the different elements has provided the optimal fabrication parameters and the system response for CO2 concentrations can be measured from 2 to 100 % at 450 °C. The sensor behaves as a non‐Nerstian system and slightly deviates from a linear response with the logarithm of CO2 until the CO2 concentration reaches the 30 %. Higher CO2 amounts make the response divert more from the Nernst law but give a stable and reproducible response to CO2 in a wide range of concentrations. Based on these promising results the recovery time, stability, repeatability and selectivity of the sensor have been measured. The performance showed by the thin film sensor proves the feasibility of the use of this system for biogas and natural gas applications owing to its very good consistency at low temperature in a wide concentration range.

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Lander Rojo

Thin film YSZ solid state electrolyte characterization performed by electrochemical impedance spectroscopy

Enhanced features of Li₂CO₃ sputtered thin films induced by thickness and annealing time

Li₂CO₃thin films fabricated by sputtering techniques: the role of temperature on their properties

Thin‐film Potentiometric Sensor to Detect CO₂ Concentrations Ranging Between 2 % and 100 %

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Lander Rojo

Thin film YSZ solid state electrolyte characterization performed by electrochemical impedance spectroscopy

Enhanced features of Li2CO3 sputtered thin films induced by thickness and annealing time

Li2CO3thin films fabricated by sputtering techniques: the role of temperature on their properties

Thin‐film Potentiometric Sensor to Detect CO2 Concentrations Ranging Between 2 % and 100 %

Contact Info

Product

Resources

About

Enhanced features of Li₂CO₃ sputtered thin films induced by thickness and annealing time

Li₂CO₃thin films fabricated by sputtering techniques: the role of temperature on their properties

Thin‐film Potentiometric Sensor to Detect CO₂ Concentrations Ranging Between 2 % and 100 %