Samarium-Doped Vanadium Dioxide Thin Films to Modulate the Thermochromic Properties for Energy-Saving Smart Windows

Mian Azmat; Muhammad Kashif Naseem; None Hajra; Qianyi Li; Junlin Yang; Haibo Jin; Jingbo Li; Jingyao Zhang

doi:10.1021/acsaem.4c00131

Samarium-Doped Vanadium Dioxide Thin Films to Modulate the Thermochromic Properties for Energy-Saving Smart Windows

Mian Azmat, Muhammad Kashif Naseem, None Hajra, Qianyi Li, Junlin Yang, Haibo Jin, Jingbo Li^*, Jingyao Zhang

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

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

5 Citations (Scopus)

Abstract

VO₂-based thin films are robust thermochromic materials in the pursuit of energy-efficient smart windows, but high metal-insulator transition temperature (T_MIT), low luminous transmittance (Tr_lum), and unsatisfactory solar modulation (ΔTr_sol) are primary hurdles. In this work, Sm-doped VO₂ thin films were reported for the first time deposited on a c-cut sapphire substrate using the hydrothermal method. Sm³⁺ doping increases Tr_lum, but it deteriorates ΔTr_sol of VO₂ thin films. Compared with pure VO₂, the 2 at % Sm doping level gives a good balance of thermochromic performance by increasing Tr_lum from 23.5 to 28.2% over a little compromise in ΔTr_sol from 8.9 to 7.3%. Moreover, due to the narrowing of E_g1 on Sm doping, Tr_sol of the M phase VO₂ consistently decreases to 22.1% at 6 at % Sm, which may be beneficial for smart window applications in hot regions where cooling is more demanding in summer than heating in winter. This study provides insight into VO₂ doping engineering via experimental and DFT studies, which may lead to prospects for advancing VO₂ nanofilms’ thermochromic characteristics.

Original language	English
Journal	ACS Applied Energy Materials
DOIs	https://doi.org/10.1021/acsaem.4c00131
Publication status	Accepted/In press - 2024

Keywords

Peierls distortion
luminous transmittance
metal−insulator phase transition
samarium doping
solar modulation
thermochromic properties
vanadium dioxide (VO)

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10.1021/acsaem.4c00131

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@article{31a3c8fc39e242a68b8d50e14201ba93,

title = "Samarium-Doped Vanadium Dioxide Thin Films to Modulate the Thermochromic Properties for Energy-Saving Smart Windows",

abstract = "VO2-based thin films are robust thermochromic materials in the pursuit of energy-efficient smart windows, but high metal-insulator transition temperature (TMIT), low luminous transmittance (Trlum), and unsatisfactory solar modulation (ΔTrsol) are primary hurdles. In this work, Sm-doped VO2 thin films were reported for the first time deposited on a c-cut sapphire substrate using the hydrothermal method. Sm3+ doping increases Trlum, but it deteriorates ΔTrsol of VO2 thin films. Compared with pure VO2, the 2 at % Sm doping level gives a good balance of thermochromic performance by increasing Trlum from 23.5 to 28.2% over a little compromise in ΔTrsol from 8.9 to 7.3%. Moreover, due to the narrowing of Eg1 on Sm doping, Trsol of the M phase VO2 consistently decreases to 22.1% at 6 at % Sm, which may be beneficial for smart window applications in hot regions where cooling is more demanding in summer than heating in winter. This study provides insight into VO2 doping engineering via experimental and DFT studies, which may lead to prospects for advancing VO2 nanofilms{\textquoteright} thermochromic characteristics.",

keywords = "Peierls distortion, luminous transmittance, metal−insulator phase transition, samarium doping, solar modulation, thermochromic properties, vanadium dioxide (VO)",

author = "Mian Azmat and Naseem, {Muhammad Kashif} and None Hajra and Qianyi Li and Junlin Yang and Haibo Jin and Jingbo Li and Jingyao Zhang",

note = "Publisher Copyright: {\textcopyright} 2024 American Chemical Society.",

year = "2024",

doi = "10.1021/acsaem.4c00131",

language = "English",

journal = "ACS Applied Energy Materials",

issn = "2574-0962",

publisher = "American Chemical Society",

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T1 - Samarium-Doped Vanadium Dioxide Thin Films to Modulate the Thermochromic Properties for Energy-Saving Smart Windows

AU - Azmat, Mian

AU - Naseem, Muhammad Kashif

AU - Hajra, None

AU - Li, Qianyi

AU - Yang, Junlin

AU - Jin, Haibo

AU - Li, Jingbo

AU - Zhang, Jingyao

PY - 2024

Y1 - 2024

N2 - VO2-based thin films are robust thermochromic materials in the pursuit of energy-efficient smart windows, but high metal-insulator transition temperature (TMIT), low luminous transmittance (Trlum), and unsatisfactory solar modulation (ΔTrsol) are primary hurdles. In this work, Sm-doped VO2 thin films were reported for the first time deposited on a c-cut sapphire substrate using the hydrothermal method. Sm3+ doping increases Trlum, but it deteriorates ΔTrsol of VO2 thin films. Compared with pure VO2, the 2 at % Sm doping level gives a good balance of thermochromic performance by increasing Trlum from 23.5 to 28.2% over a little compromise in ΔTrsol from 8.9 to 7.3%. Moreover, due to the narrowing of Eg1 on Sm doping, Trsol of the M phase VO2 consistently decreases to 22.1% at 6 at % Sm, which may be beneficial for smart window applications in hot regions where cooling is more demanding in summer than heating in winter. This study provides insight into VO2 doping engineering via experimental and DFT studies, which may lead to prospects for advancing VO2 nanofilms’ thermochromic characteristics.

AB - VO2-based thin films are robust thermochromic materials in the pursuit of energy-efficient smart windows, but high metal-insulator transition temperature (TMIT), low luminous transmittance (Trlum), and unsatisfactory solar modulation (ΔTrsol) are primary hurdles. In this work, Sm-doped VO2 thin films were reported for the first time deposited on a c-cut sapphire substrate using the hydrothermal method. Sm3+ doping increases Trlum, but it deteriorates ΔTrsol of VO2 thin films. Compared with pure VO2, the 2 at % Sm doping level gives a good balance of thermochromic performance by increasing Trlum from 23.5 to 28.2% over a little compromise in ΔTrsol from 8.9 to 7.3%. Moreover, due to the narrowing of Eg1 on Sm doping, Trsol of the M phase VO2 consistently decreases to 22.1% at 6 at % Sm, which may be beneficial for smart window applications in hot regions where cooling is more demanding in summer than heating in winter. This study provides insight into VO2 doping engineering via experimental and DFT studies, which may lead to prospects for advancing VO2 nanofilms’ thermochromic characteristics.

KW - Peierls distortion

KW - luminous transmittance

KW - metal−insulator phase transition

KW - samarium doping

KW - solar modulation

KW - thermochromic properties

KW - vanadium dioxide (VO)

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U2 - 10.1021/acsaem.4c00131

DO - 10.1021/acsaem.4c00131

M3 - Article

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SN - 2574-0962

JO - ACS Applied Energy Materials

JF - ACS Applied Energy Materials

ER -

Samarium-Doped Vanadium Dioxide Thin Films to Modulate the Thermochromic Properties for Energy-Saving Smart Windows

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Keywords

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