Niobium-Doped Titanium Dioxide: Effect of Conductivity on Metal-Semiconductor Tribovoltaic Devices

Mālinieks, Kaspars; Kļimenko, Sabrīna; Sherrell, Peter C.; Šarakovskis, Anatolijs; Eglītis, Raivis; Šmits, Krišjānis; Linarts, Artis; Šutka, Andris

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Mālinieks, Kaspars

Kļimenko, Sabrīna

Sherrell, Peter C.

Šarakovskis, Anatolijs

Eglītis, Raivis

Šmits, Krišjānis

Linarts, Artis

Šutka, Andris

Date

2024

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Abstract

Tribovoltaic devices have emerged as promising technologies for converting mechanical motion to electricity via surface charge generation. To maximize the electromechanical conversion of tribovoltaic devices, conventional literature has focussed on engineering a large difference in work functions between the contact materials. However, recent reports suggest that other factors beyond work function, such as temperature, play a key role in electromechanical conversion. Herein, TiO2 (a cheap, abundant oxide material) is doped with Nb5+, resulting in an improved tribovoltaic performance up to 65 times. This is attributed to an enhancement in the TiO2 film conductivity arising from Nb5+ doping. Further, it is shown that this improvement holds over cm2 scale testing. This work demonstrates the importance of considering a range of factors, particularly conductivity, when designing tribovoltaic devices and may be adopted broadly for optimal electromechanical conversion. © 2024 The Author(s). Advanced Materials Interfaces published by Wiley-VCH GmbH. This is an open access publication K. Mālnieks, S. Kļimenko, P. C. Sherrell, A. Šarakovskis, R. Eglītis, K. Šmits, A. Linarts, A. Šutka, Niobium-Doped Titanium Dioxide: Effect of Conductivity on Metal-Semiconductor Tribovoltaic Devices. Adv. Mater. Interfaces 2024, 12, 2400567. https://doi.org/10.1002/admi.202400567 published under the CC BY licence.