ZnO nanowire-based flexible sensors for pressure and temperature monitoring › Научные исследования в СПбГУ

Standard

ZnO nanowire-based flexible sensors for pressure and temperature monitoring. / Николаева, Александра; Кондратьев, Валерий Михайлович; Кадинская, Светлана Алексеевна; Колесина, Диана; Зубов, Федор Иванович; Аникина, Мария; Дворецкая, Лилия; Лендяшова, Вера Вадимовна; Гридчин, Владислав Олегович; Монастыренко, Анатолий; Красников, Дмитрий; Насибулин, Альберт; Кочетков, Федор Михайлович; Большаков, Алексей Дмитриевич.

в: Materials Science in Semiconductor Processing, Том 189, 01.04.2025.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Николаева, А, Кондратьев, ВМ, Кадинская, СА, Колесина, Д, Зубов, ФИ, Аникина, М, Дворецкая, Л, Лендяшова, ВВ, Гридчин, ВО, Монастыренко, А, Красников, Д, Насибулин, А, Кочетков, ФМ & Большаков, АД 2025, 'ZnO nanowire-based flexible sensors for pressure and temperature monitoring', Materials Science in Semiconductor Processing, Том. 189. https://doi.org/10.1016/j.mssp.2024.109253

APA

Николаева, А., Кондратьев, В. М., Кадинская, С. А., Колесина, Д., Зубов, Ф. И., Аникина, М., Дворецкая, Л., Лендяшова, В. В., Гридчин, В. О., Монастыренко, А., Красников, Д., Насибулин, А., Кочетков, Ф. М., & Большаков, А. Д. (2025). ZnO nanowire-based flexible sensors for pressure and temperature monitoring. Materials Science in Semiconductor Processing, 189. https://doi.org/10.1016/j.mssp.2024.109253

Vancouver

Николаева А, Кондратьев ВМ, Кадинская СА, Колесина Д, Зубов ФИ, Аникина М и пр. ZnO nanowire-based flexible sensors for pressure and temperature monitoring. Materials Science in Semiconductor Processing. 2025 Апр. 1;189. https://doi.org/10.1016/j.mssp.2024.109253

Author

Николаева, Александра ; Кондратьев, Валерий Михайлович ; Кадинская, Светлана Алексеевна ; Колесина, Диана ; Зубов, Федор Иванович ; Аникина, Мария ; Дворецкая, Лилия ; Лендяшова, Вера Вадимовна ; Гридчин, Владислав Олегович ; Монастыренко, Анатолий ; Красников, Дмитрий ; Насибулин, Альберт ; Кочетков, Федор Михайлович ; Большаков, Алексей Дмитриевич. / ZnO nanowire-based flexible sensors for pressure and temperature monitoring. в: Materials Science in Semiconductor Processing. 2025 ; Том 189.

BibTeX

@article{a794bb221421486d94ec18149bec0b21,

title = "ZnO nanowire-based flexible sensors for pressure and temperature monitoring",

abstract = "The increasing demand for wearable health trackers has sparked the development of innovative sensor technologies based on nanomaterials. Zinc oxide (ZnO) has emerged as a promising platform due to its low toxicity, piezoelectric and semiconductor properties, making it ideal for advanced sensor applications. In this study, we fabricate flexible pressure sensors employing ZnO nanowires encapsulated in a polymer matrix. The hydrothermal growth method allows for the simple fabrication of the devices. The sensors demonstrate both resistive and capacitive responses to an external load, enabling accurate pressure measurements. The sensors exhibit a wide measurement range of up to 2 MPa with a detection limit as low as 10 Pa and a sensitivity of up to 4 %⋅kPa−1. Additionally, we demonstrate the response to changes in temperature that can be distinguished from the response to a change in a mechanical load allowing for simultaneous pressure and temperature readings. Overall, our results suggest the prospects for these feasible, multifunctional flexible sensors to be utilized in portable health diagnostic systems and electronic skin.",

keywords = "Flexible, Nanowires, Sensor, Zinc oxide (ZnO)",

author = "Александра Николаева and Кондратьев, {Валерий Михайлович} and Кадинская, {Светлана Алексеевна} and Диана Колесина and Зубов, {Федор Иванович} and Мария Аникина and Лилия Дворецкая and Лендяшова, {Вера Вадимовна} and Гридчин, {Владислав Олегович} and Анатолий Монастыренко and Дмитрий Красников and Альберт Насибулин and Кочетков, {Федор Михайлович} and Большаков, {Алексей Дмитриевич}",

note = "Nikolaeva A. V. et al. ZnO nanowire-based flexible sensors for pressure and temperature monitoring //Materials Science in Semiconductor Processing. – 2025. – Т. 189. – С. 109253.",

year = "2025",

month = apr,

day = "1",

doi = "10.1016/j.mssp.2024.109253",

language = "English",

volume = "189",

journal = "Materials Science in Semiconductor Processing",

issn = "1369-8001",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - ZnO nanowire-based flexible sensors for pressure and temperature monitoring

AU - Николаева, Александра

AU - Кондратьев, Валерий Михайлович

AU - Кадинская, Светлана Алексеевна

AU - Колесина, Диана

AU - Зубов, Федор Иванович

AU - Аникина, Мария

AU - Дворецкая, Лилия

AU - Лендяшова, Вера Вадимовна

AU - Гридчин, Владислав Олегович

AU - Монастыренко, Анатолий

AU - Красников, Дмитрий

AU - Насибулин, Альберт

AU - Кочетков, Федор Михайлович

AU - Большаков, Алексей Дмитриевич

N1 - Nikolaeva A. V. et al. ZnO nanowire-based flexible sensors for pressure and temperature monitoring //Materials Science in Semiconductor Processing. – 2025. – Т. 189. – С. 109253.

PY - 2025/4/1

Y1 - 2025/4/1

N2 - The increasing demand for wearable health trackers has sparked the development of innovative sensor technologies based on nanomaterials. Zinc oxide (ZnO) has emerged as a promising platform due to its low toxicity, piezoelectric and semiconductor properties, making it ideal for advanced sensor applications. In this study, we fabricate flexible pressure sensors employing ZnO nanowires encapsulated in a polymer matrix. The hydrothermal growth method allows for the simple fabrication of the devices. The sensors demonstrate both resistive and capacitive responses to an external load, enabling accurate pressure measurements. The sensors exhibit a wide measurement range of up to 2 MPa with a detection limit as low as 10 Pa and a sensitivity of up to 4 %⋅kPa−1. Additionally, we demonstrate the response to changes in temperature that can be distinguished from the response to a change in a mechanical load allowing for simultaneous pressure and temperature readings. Overall, our results suggest the prospects for these feasible, multifunctional flexible sensors to be utilized in portable health diagnostic systems and electronic skin.

AB - The increasing demand for wearable health trackers has sparked the development of innovative sensor technologies based on nanomaterials. Zinc oxide (ZnO) has emerged as a promising platform due to its low toxicity, piezoelectric and semiconductor properties, making it ideal for advanced sensor applications. In this study, we fabricate flexible pressure sensors employing ZnO nanowires encapsulated in a polymer matrix. The hydrothermal growth method allows for the simple fabrication of the devices. The sensors demonstrate both resistive and capacitive responses to an external load, enabling accurate pressure measurements. The sensors exhibit a wide measurement range of up to 2 MPa with a detection limit as low as 10 Pa and a sensitivity of up to 4 %⋅kPa−1. Additionally, we demonstrate the response to changes in temperature that can be distinguished from the response to a change in a mechanical load allowing for simultaneous pressure and temperature readings. Overall, our results suggest the prospects for these feasible, multifunctional flexible sensors to be utilized in portable health diagnostic systems and electronic skin.

KW - Flexible

KW - Nanowires

KW - Sensor

KW - Zinc oxide (ZnO)

UR - https://www.mendeley.com/catalogue/61f6736e-30f8-3742-9764-17f63a4a2d83/

U2 - 10.1016/j.mssp.2024.109253

DO - 10.1016/j.mssp.2024.109253

M3 - Article

VL - 189

JO - Materials Science in Semiconductor Processing

JF - Materials Science in Semiconductor Processing

SN - 1369-8001

ER -

ID: 137678831