Apparent thermal conductivity of photoluminescent C-dot nanofluid

Carbon nanodots (C-dots) are nanometer-sized particles of amorphous carbon that form highly stable water-based suspension if given the right surface treatment. Their size, stability and unique photoluminescent properties make them attractive candidates for tracer materials for use in heat transfer e...

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Bibliographic Details
Published in:Journal of molecular liquids 2019-07, Vol.286, p.110948, Article 110948
Main Authors: Vatani, Ashkan, Woodfield, Peter L., Kim, Tak H., Lemckert, Charles, Li, Qin, Dao, Dzung
Format: Article
Language:English
Subjects:
Carbon nanodots
Fluorescent tracer
Photoluminescent nanofluid
Thermal conductivity
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Summary:Carbon nanodots (C-dots) are nanometer-sized particles of amorphous carbon that form highly stable water-based suspension if given the right surface treatment. Their size, stability and unique photoluminescent properties make them attractive candidates for tracer materials for use in heat transfer experiments. Here we measure the effective thermal conductivity of water containing 1.5 g/L (0.077% volume fraction) of fluorescent green carbon nanodots. In conflict with empirical predictions from nano-fluid literature but consistent with predictions from classical theories applied to nanofluid thermal conductivity enhancement, the results show no measurable difference between the thermal conductivity of the colloid and deionized water. This finding adds confirmation to the value of photoluminescent carbon nanodots for use as a water tracer in bench-top heat transfer experiments. •Water/C-dot nanofluid sample with 0.077% volume fraction was prepared.•Effective thermal conductivity of water containing 1.5 g/L) of fluorescent green carbon nanodots is measured.•The measured thermal conductivity of the nanofluid is found to be in contrast with the predictions of classical theories.•No measurable enhancement in the effective thermal conductivity of the water is observed by adding C-dot particles.
ISSN:0167-7322
1873-3166
DOI:10.1016/j.molliq.2019.110948