Low infrared emissivity and corrosion resistance of TiO2 films prepared by thermal oxidation of sputtered Ti films

Chao Gao; Qishuai Wu; Jie Xu; Run Chen; Yi Liu

doi:10.1016/j.mtcomm.2024.111100

Low infrared emissivity and corrosion resistance of TiO₂ films prepared by thermal oxidation of sputtered Ti films

Chao Gao, Qishuai Wu, Jie Xu, Run Chen, Yi Liu

Xi'an Polytechnic University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

To develop low infrared emissivity and corrosion resistant films, a dense rutile TiO₂ film was synthesized by thermal oxidizing sputtered Ti metal film under hypoxic environment at 300, 400, 500 and 600℃. Results show that with rising oxidation temperature, surface defects and oxygen vacancies decrease. At 300℃ and 400℃, less oxygen leads to pores. As temperature increases, surface grains become smaller and denser, and films change from hydrophilic to hydrophobic. At 500°C, the TiO₂ film with emulsion - like morphology and protrusions has a contact angle of 148.75° (near superhydrophobic), enhancing corrosion resistance. At 600°C, the increase in carrier density reduces resistivity, and the densely packed structure minimizes infrared absorption, achieving a low infrared emissivity of 0.125 in 8–14 μm wavelength range.

Original language	English
Article number	111100
Journal	Materials Today Communications
Volume	41
DOIs	https://doi.org/10.1016/j.mtcomm.2024.111100
State	Published - Dec 2024
Externally published	Yes

Keywords

Corrosion resistance
Infrared emissivity
Sputtered Ti film
Thermal oxidation
TiO film

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10.1016/j.mtcomm.2024.111100

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title = "Low infrared emissivity and corrosion resistance of TiO2 films prepared by thermal oxidation of sputtered Ti films",

abstract = "To develop low infrared emissivity and corrosion resistant films, a dense rutile TiO2 film was synthesized by thermal oxidizing sputtered Ti metal film under hypoxic environment at 300, 400, 500 and 600℃. Results show that with rising oxidation temperature, surface defects and oxygen vacancies decrease. At 300℃ and 400℃, less oxygen leads to pores. As temperature increases, surface grains become smaller and denser, and films change from hydrophilic to hydrophobic. At 500°C, the TiO2 film with emulsion - like morphology and protrusions has a contact angle of 148.75° (near superhydrophobic), enhancing corrosion resistance. At 600°C, the increase in carrier density reduces resistivity, and the densely packed structure minimizes infrared absorption, achieving a low infrared emissivity of 0.125 in 8–14 μm wavelength range.",

keywords = "Corrosion resistance, Infrared emissivity, Sputtered Ti film, Thermal oxidation, TiO film",

author = "Chao Gao and Qishuai Wu and Jie Xu and Run Chen and Yi Liu",

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doi = "10.1016/j.mtcomm.2024.111100",

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T1 - Low infrared emissivity and corrosion resistance of TiO2 films prepared by thermal oxidation of sputtered Ti films

AU - Gao, Chao

AU - Wu, Qishuai

AU - Xu, Jie

AU - Chen, Run

AU - Liu, Yi

PY - 2024/12

Y1 - 2024/12

N2 - To develop low infrared emissivity and corrosion resistant films, a dense rutile TiO2 film was synthesized by thermal oxidizing sputtered Ti metal film under hypoxic environment at 300, 400, 500 and 600℃. Results show that with rising oxidation temperature, surface defects and oxygen vacancies decrease. At 300℃ and 400℃, less oxygen leads to pores. As temperature increases, surface grains become smaller and denser, and films change from hydrophilic to hydrophobic. At 500°C, the TiO2 film with emulsion - like morphology and protrusions has a contact angle of 148.75° (near superhydrophobic), enhancing corrosion resistance. At 600°C, the increase in carrier density reduces resistivity, and the densely packed structure minimizes infrared absorption, achieving a low infrared emissivity of 0.125 in 8–14 μm wavelength range.

AB - To develop low infrared emissivity and corrosion resistant films, a dense rutile TiO2 film was synthesized by thermal oxidizing sputtered Ti metal film under hypoxic environment at 300, 400, 500 and 600℃. Results show that with rising oxidation temperature, surface defects and oxygen vacancies decrease. At 300℃ and 400℃, less oxygen leads to pores. As temperature increases, surface grains become smaller and denser, and films change from hydrophilic to hydrophobic. At 500°C, the TiO2 film with emulsion - like morphology and protrusions has a contact angle of 148.75° (near superhydrophobic), enhancing corrosion resistance. At 600°C, the increase in carrier density reduces resistivity, and the densely packed structure minimizes infrared absorption, achieving a low infrared emissivity of 0.125 in 8–14 μm wavelength range.

KW - Corrosion resistance

KW - Infrared emissivity

KW - Sputtered Ti film

KW - Thermal oxidation

KW - TiO film

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U2 - 10.1016/j.mtcomm.2024.111100

DO - 10.1016/j.mtcomm.2024.111100

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SN - 2352-4928

VL - 41

JO - Materials Today Communications

JF - Materials Today Communications

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Low infrared emissivity and corrosion resistance of TiO₂ films prepared by thermal oxidation of sputtered Ti films

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Keywords

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