MoO3 nanowire growth on VO2/WO3 for thermochromic applications

Amina Houimi; Mohamed A. Basyooni; Mücahit Yılmaz; Yasin Ramazan Eker

doi:10.1039/D3CP05942A

MoO3 nanowire growth on VO2/WO3 for thermochromic applications

Amina Houimi, Mohamed A. Basyooni^*, Mücahit Yılmaz, Yasin Ramazan Eker

^*Corresponding author for this work

Dynamics of Micro and Nano Systems

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Abstract

This study explores the structural, electronic, and optical properties of sandwich-structured thin films composed of WO3, MoWO3, and MoO3 as window layers on VO2/WO3 via a physical vapor deposition method. Morphological analysis demonstrates the evolution of distinct nanowires, offering insights into the lattice strain of the VO2 layer toward high-performance thermochromatic devices. Temperature-dependent sheet resistivity is investigated, showcasing significant improvements in conductivity for samples with MoO3 as a window layer. The electrical and optical properties of the MoO3/VO2/WO3 device showed a phase transition temperature (Tc) of 36.8 °C, a transmittance luminous (Tlum) of 54.57%, and a solar modulation ability (ΔTsol) of 12.43. This comprehensive analysis contributes to understanding the growth of nanowires on multi-layered thin films, offering valuable insights into potential applications in bright windows.

Original language	English
Pages (from-to)	5548-5557
Number of pages	10
Journal	Physical chemistry chemical physics (PCCP)
Volume	26
Issue number	6
DOIs	https://doi.org/10.1039/D3CP05942A
Publication status	Published - 2024

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title = "MoO3 nanowire growth on VO2/WO3 for thermochromic applications",

abstract = "This study explores the structural, electronic, and optical properties of sandwich-structured thin films composed of WO3, MoWO3, and MoO3 as window layers on VO2/WO3 via a physical vapor deposition method. Morphological analysis demonstrates the evolution of distinct nanowires, offering insights into the lattice strain of the VO2 layer toward high-performance thermochromatic devices. Temperature-dependent sheet resistivity is investigated, showcasing significant improvements in conductivity for samples with MoO3 as a window layer. The electrical and optical properties of the MoO3/VO2/WO3 device showed a phase transition temperature (Tc) of 36.8 °C, a transmittance luminous (Tlum) of 54.57%, and a solar modulation ability (ΔTsol) of 12.43. This comprehensive analysis contributes to understanding the growth of nanowires on multi-layered thin films, offering valuable insights into potential applications in bright windows.",

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T1 - MoO3 nanowire growth on VO2/WO3 for thermochromic applications

AU - Houimi, Amina

AU - Basyooni, Mohamed A.

AU - Yılmaz, Mücahit

AU - Eker, Yasin Ramazan

PY - 2024

Y1 - 2024

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AB - This study explores the structural, electronic, and optical properties of sandwich-structured thin films composed of WO3, MoWO3, and MoO3 as window layers on VO2/WO3 via a physical vapor deposition method. Morphological analysis demonstrates the evolution of distinct nanowires, offering insights into the lattice strain of the VO2 layer toward high-performance thermochromatic devices. Temperature-dependent sheet resistivity is investigated, showcasing significant improvements in conductivity for samples with MoO3 as a window layer. The electrical and optical properties of the MoO3/VO2/WO3 device showed a phase transition temperature (Tc) of 36.8 °C, a transmittance luminous (Tlum) of 54.57%, and a solar modulation ability (ΔTsol) of 12.43. This comprehensive analysis contributes to understanding the growth of nanowires on multi-layered thin films, offering valuable insights into potential applications in bright windows.

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MoO3 nanowire growth on VO2/WO3 for thermochromic applications

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