High thermoelectric performance of Cu2Se-based thin films with adjustable element ratios by pulsed laser deposition

Copper selenide (Cu2Se) is a P-type thermoelectric (TE) semiconductor that is environmentally friendly and has rich crust content and high cost performance–price ratio. Present studies on Cu2Se focus on the high TE performance of the bulks because of the intrinsic low thermal conductivity resulting...

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Bibliographic Details
Published in:Materials today energy 2022-03, Vol.24, p.100929, Article 100929
Main Authors: Wang, Aiai, Xue, Yuli, Wang, Jingxuan, Yang, Xiaoqi, Wang, Jianglong, Li, Zhiliang, Wang, Shufang
Format: Article
Language:English
Subjects:
Carrier concentration
Copper selenide
Oriented crystal
Power factor
Thermoelectric thin film
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Summary:Copper selenide (Cu2Se) is a P-type thermoelectric (TE) semiconductor that is environmentally friendly and has rich crust content and high cost performance–price ratio. Present studies on Cu2Se focus on the high TE performance of the bulks because of the intrinsic low thermal conductivity resulting from the ‘liquid-like’ behavior of Cu ions. Compared with three-dimensional bulks, two-dimensional thin films are more compatible with modern semiconductor technology and have unique advantages in the construction and application of TE micro- and nano-devices. In this study, b-axis–oriented Cu2Se epitaxial thin films were successfully prepared using pulsed laser deposition (PLD) technology. The element ratios (Cu:Se) were adjusted in a small range (2.0:0.899–0.942). Correspondingly, the Cu vacancy concentration was optimized by changing the deposition temperature of the substrate. The in-plane directional power factor of the thin film is as high as ∼20.02 μW/cm K−2 at 580 K and ∼8.44 μW/cm K−2 at room temperature, which are higher than that of Cu2Se bulks. As per theoretical calculation, the estimated zT value of the Cu2Se film with a thickness of 295.0 nm reaches ∼0.58 at 580 K. The relatively high TE performance and good repeatability demonstrate that Cu2Se films have great application potential in solid-state refrigeration and power generation. The PLD preparation and performance control methods involved in this research will promote the development of high-performance Cu2Se films and devices. [Display omitted] •b-axis–oriented Cu2Se-based thin films with adjustable element ratios are successfully prepared via pulsed laser deposition technology.•High PF (∼20.02 μW/cm K−2) is achieved along the in-plane direction by optimizing the Cu vacancy concentration.•The average PF value of the film grown at Ts = 300 °C is as high as 10.08 μW/cm K−2.•Ultrahigh estimated-zT value (approximately 0.58 at 580 K) is achieved of Cu2Se thin films.
ISSN:2468-6069
2468-6069
DOI:10.1016/j.mtener.2021.100929