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Title
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Photo-thermal conversion properties of phosphonium-based ionic liquid, its magnetized and emulsion forms
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Type
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JournalPaper
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Keywords
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Photo-thermal phosphonium
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Abstract
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ation from light. Based on the experimental results, MPIL shows better performance compared to PIL. The MPIL nanofluid was stable even after several consecutive heating/cooling cycles in the closed system. Due to low transparency, the MPIL exhibits the most light-to-heat conversion efficiency on its surface so that the surface temperature respectively reaches 62.5 ℃ and 78.0 ℃ after 60 min simulated light and sunlight irradiation.
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Researchers
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Meysam Yarie (Fifth Researcher), ma z (Fourth Researcher), MORTEZA TORABI (Third Researcher), Saeid Azizian (Second Researcher), (First Researcher)
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