Standard

Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements. / Пешкова, Мария Анатольевна; Грязев, Иван Павлович; Калиничев, Андрей; Тюфтяков, Николай Юрьевич.

In: Sensors and Actuators, B: Chemical, Vol. 443, 138231, 16.11.2025.

Research output: Contribution to journalArticlepeer-review

Harvard

Пешкова, МА, Грязев, ИП, Калиничев, А & Тюфтяков, НЮ 2025, 'Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements', Sensors and Actuators, B: Chemical, vol. 443, 138231. https://doi.org/10.1016/j.snb.2025.138231

APA

Пешкова, М. А., Грязев, И. П., Калиничев, А., & Тюфтяков, Н. Ю. (2025). Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements. Sensors and Actuators, B: Chemical, 443, [138231]. https://doi.org/10.1016/j.snb.2025.138231

Vancouver

Пешкова МА, Грязев ИП, Калиничев А, Тюфтяков НЮ. Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements. Sensors and Actuators, B: Chemical. 2025 Nov 16;443. 138231. https://doi.org/10.1016/j.snb.2025.138231

Author

Пешкова, Мария Анатольевна ; Грязев, Иван Павлович ; Калиничев, Андрей ; Тюфтяков, Николай Юрьевич. / Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements. In: Sensors and Actuators, B: Chemical. 2025 ; Vol. 443.

BibTeX

@article{c603ec45ab30497db4454208eed42879,
title = "Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements",
abstract = "As with most chemical sensors, the proliferation of optodes in analytical routine is hampered by the need for periodic sensor calibration. This fundamental limitation arises from a number of chemical and technological factors (e.g., instability of the illumination source, changes in the composition of the sensor phase, etc.), leading to deviation of the optodes signal in parallel measurements and over time. The development of new approaches for calibration-free determination of analytes with optodes remains a pertinent challenge in the field of chemical sensors. The presented study is aimed at the development and validation of ion-selective optical sensor arrays that do not require calibration. These arrays incorporate an internal optical signal reference composed of polymeric optodes with suppressed exchange capacity. The applicability of such optodes as optical signal standards is demonstrated in a broad range of pH and background electrolyte concentrations: from pH 5 to 9 in solutions of cations and lipophilic anions with concentrations reaching 0.1 M. This experimental observation is supported by theoretical analyses performed by numerical simulation. The study identifies the effect of coextraction and ion exchange on the range of the optical signal stability. Furthermore, it is shown both theoretically and experimentally that by modulating the acidity of the lipophilic indicator in the standard optode, the operational range of the internal reference can be adjusted to the desired pH or electrolyte concentrations. In addition, the validation results demonstrate the feasibility of determining Na+ concentration in the sample using internal standards with fair accuracy.",
keywords = "Calibration-free sensors, Chromoionophore, Internal reference, Optical sensors, Polymeric optodes",
author = "Пешкова, {Мария Анатольевна} and Грязев, {Иван Павлович} and Андрей Калиничев and Тюфтяков, {Николай Юрьевич}",
year = "2025",
month = nov,
day = "16",
doi = "10.1016/j.snb.2025.138231",
language = "English",
volume = "443",
journal = "Sensors and Actuators, B: Chemical",
issn = "0925-4005",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Ion-selective optical sensors with internal reference: On the quest for prolonged functionality and calibration-free measurements

AU - Пешкова, Мария Анатольевна

AU - Грязев, Иван Павлович

AU - Калиничев, Андрей

AU - Тюфтяков, Николай Юрьевич

PY - 2025/11/16

Y1 - 2025/11/16

N2 - As with most chemical sensors, the proliferation of optodes in analytical routine is hampered by the need for periodic sensor calibration. This fundamental limitation arises from a number of chemical and technological factors (e.g., instability of the illumination source, changes in the composition of the sensor phase, etc.), leading to deviation of the optodes signal in parallel measurements and over time. The development of new approaches for calibration-free determination of analytes with optodes remains a pertinent challenge in the field of chemical sensors. The presented study is aimed at the development and validation of ion-selective optical sensor arrays that do not require calibration. These arrays incorporate an internal optical signal reference composed of polymeric optodes with suppressed exchange capacity. The applicability of such optodes as optical signal standards is demonstrated in a broad range of pH and background electrolyte concentrations: from pH 5 to 9 in solutions of cations and lipophilic anions with concentrations reaching 0.1 M. This experimental observation is supported by theoretical analyses performed by numerical simulation. The study identifies the effect of coextraction and ion exchange on the range of the optical signal stability. Furthermore, it is shown both theoretically and experimentally that by modulating the acidity of the lipophilic indicator in the standard optode, the operational range of the internal reference can be adjusted to the desired pH or electrolyte concentrations. In addition, the validation results demonstrate the feasibility of determining Na+ concentration in the sample using internal standards with fair accuracy.

AB - As with most chemical sensors, the proliferation of optodes in analytical routine is hampered by the need for periodic sensor calibration. This fundamental limitation arises from a number of chemical and technological factors (e.g., instability of the illumination source, changes in the composition of the sensor phase, etc.), leading to deviation of the optodes signal in parallel measurements and over time. The development of new approaches for calibration-free determination of analytes with optodes remains a pertinent challenge in the field of chemical sensors. The presented study is aimed at the development and validation of ion-selective optical sensor arrays that do not require calibration. These arrays incorporate an internal optical signal reference composed of polymeric optodes with suppressed exchange capacity. The applicability of such optodes as optical signal standards is demonstrated in a broad range of pH and background electrolyte concentrations: from pH 5 to 9 in solutions of cations and lipophilic anions with concentrations reaching 0.1 M. This experimental observation is supported by theoretical analyses performed by numerical simulation. The study identifies the effect of coextraction and ion exchange on the range of the optical signal stability. Furthermore, it is shown both theoretically and experimentally that by modulating the acidity of the lipophilic indicator in the standard optode, the operational range of the internal reference can be adjusted to the desired pH or electrolyte concentrations. In addition, the validation results demonstrate the feasibility of determining Na+ concentration in the sample using internal standards with fair accuracy.

KW - Calibration-free sensors

KW - Chromoionophore

KW - Internal reference

KW - Optical sensors

KW - Polymeric optodes

UR - https://www.mendeley.com/catalogue/9143b06c-943a-36c6-aec7-855d7b66a4e4/

U2 - 10.1016/j.snb.2025.138231

DO - 10.1016/j.snb.2025.138231

M3 - Article

VL - 443

JO - Sensors and Actuators, B: Chemical

JF - Sensors and Actuators, B: Chemical

SN - 0925-4005

M1 - 138231

ER -

ID: 141955492