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Enhancing Polyantimonic-Based Materials’ Moisture Response with Binder Content Tuning. / Mendes, Sofia; Курапова, Ольга Юрьевна; Faia, Pedro M.

In: Chemosensors, Vol. 11, No. 8, 423, 30.07.2023.

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@article{3f4d4e2c13694668a0c888e2d1ea064b,
title = "Enhancing Polyantimonic-Based Materials{\textquoteright} Moisture Response with Binder Content Tuning",
abstract = "Humidity sensors are of huge importance in diverse domains. Several types of materials present a moisture-sensing capacity; however, frequently, their electrical response does not display time stability. Due to its high thermal stability, high ionic conductivity, and different conduction mechanism contributing to its overall conductivity, polyantimonic acid (PAA) is seen as a promising material for humidity-sensing devices. In the present work, crystalline PAA was obtained via a simple and safe hydrolysis technique using SbCl3 as a precursor. Bulky sensor samples were produced using different amounts of polyvinyl alcohol (10–20 wt.% PVA) as a binder. The obtained PAA solid sensors were tested at room temperature (RT) in order to evaluate their moisture detection/measuring ability in the relative humidity range 0–100%; the evaluation was carried out with electrical impedance spectroscopy. The sample{\textquoteright}s structure and morphology were studied using diverse experimental techniques (porosimetry, scanning electron microscopy, X-ray diffraction analysis, and thermogravimetry analysis, etc.). The sensors{\textquoteright} electrical response was in line with the found structural and morphological features. The slope of the resistance variation with an RH percentage concentration between 1 kΩ and 1.5 kΩ was noted for all sensors (showing no changes with time) in the interval between 30 and 100% RH. A good repeatability and reproducibility of the evaluated sensors{\textquoteright} electrical response was observed: the ones that displayed a higher sensitivity were the ones with a high PVA binder content, higher than previously published results for PAA, as well as a very good time stability along the time and low hysteresis.",
keywords = "PVA, electrical impedance spectroscopy, humidity sensing, model circuit, polyantimonic-based sensors",
author = "Sofia Mendes and Курапова, {Ольга Юрьевна} and Faia, {Pedro M.}",
note = "Mendes S., Kurapova O., Faia P. Enhancing Polyantimonic-Based Materials{\textquoteright} Moisture Response with Binder Content Tuning //Chemosensors. – 2023. – Т. 11. – №. 8. – С. 423.",
year = "2023",
month = jul,
day = "30",
doi = "10.3390/chemosensors11080423",
language = "English",
volume = "11",
journal = "Chemosensors",
issn = "2227-9040",
publisher = "MDPI AG",
number = "8",

}

RIS

TY - JOUR

T1 - Enhancing Polyantimonic-Based Materials’ Moisture Response with Binder Content Tuning

AU - Mendes, Sofia

AU - Курапова, Ольга Юрьевна

AU - Faia, Pedro M.

N1 - Mendes S., Kurapova O., Faia P. Enhancing Polyantimonic-Based Materials’ Moisture Response with Binder Content Tuning //Chemosensors. – 2023. – Т. 11. – №. 8. – С. 423.

PY - 2023/7/30

Y1 - 2023/7/30

N2 - Humidity sensors are of huge importance in diverse domains. Several types of materials present a moisture-sensing capacity; however, frequently, their electrical response does not display time stability. Due to its high thermal stability, high ionic conductivity, and different conduction mechanism contributing to its overall conductivity, polyantimonic acid (PAA) is seen as a promising material for humidity-sensing devices. In the present work, crystalline PAA was obtained via a simple and safe hydrolysis technique using SbCl3 as a precursor. Bulky sensor samples were produced using different amounts of polyvinyl alcohol (10–20 wt.% PVA) as a binder. The obtained PAA solid sensors were tested at room temperature (RT) in order to evaluate their moisture detection/measuring ability in the relative humidity range 0–100%; the evaluation was carried out with electrical impedance spectroscopy. The sample’s structure and morphology were studied using diverse experimental techniques (porosimetry, scanning electron microscopy, X-ray diffraction analysis, and thermogravimetry analysis, etc.). The sensors’ electrical response was in line with the found structural and morphological features. The slope of the resistance variation with an RH percentage concentration between 1 kΩ and 1.5 kΩ was noted for all sensors (showing no changes with time) in the interval between 30 and 100% RH. A good repeatability and reproducibility of the evaluated sensors’ electrical response was observed: the ones that displayed a higher sensitivity were the ones with a high PVA binder content, higher than previously published results for PAA, as well as a very good time stability along the time and low hysteresis.

AB - Humidity sensors are of huge importance in diverse domains. Several types of materials present a moisture-sensing capacity; however, frequently, their electrical response does not display time stability. Due to its high thermal stability, high ionic conductivity, and different conduction mechanism contributing to its overall conductivity, polyantimonic acid (PAA) is seen as a promising material for humidity-sensing devices. In the present work, crystalline PAA was obtained via a simple and safe hydrolysis technique using SbCl3 as a precursor. Bulky sensor samples were produced using different amounts of polyvinyl alcohol (10–20 wt.% PVA) as a binder. The obtained PAA solid sensors were tested at room temperature (RT) in order to evaluate their moisture detection/measuring ability in the relative humidity range 0–100%; the evaluation was carried out with electrical impedance spectroscopy. The sample’s structure and morphology were studied using diverse experimental techniques (porosimetry, scanning electron microscopy, X-ray diffraction analysis, and thermogravimetry analysis, etc.). The sensors’ electrical response was in line with the found structural and morphological features. The slope of the resistance variation with an RH percentage concentration between 1 kΩ and 1.5 kΩ was noted for all sensors (showing no changes with time) in the interval between 30 and 100% RH. A good repeatability and reproducibility of the evaluated sensors’ electrical response was observed: the ones that displayed a higher sensitivity were the ones with a high PVA binder content, higher than previously published results for PAA, as well as a very good time stability along the time and low hysteresis.

KW - PVA

KW - electrical impedance spectroscopy

KW - humidity sensing

KW - model circuit

KW - polyantimonic-based sensors

UR - https://www.mendeley.com/catalogue/aab1f859-ff84-3af4-bb31-937cd07a4d53/

U2 - 10.3390/chemosensors11080423

DO - 10.3390/chemosensors11080423

M3 - Article

VL - 11

JO - Chemosensors

JF - Chemosensors

SN - 2227-9040

IS - 8

M1 - 423

ER -

ID: 114061881