Carbon-Nanotube Based Thermoelectrical Paste for Enhancing Solar Cell Effciency

Fathi Sanad Mohamed; Shaker Ahmed; O. Abdellatif Sameh; Elmahallawi Iman; A. Ghali Hani; Kirah Khaled

Conference ProceedingsOPEN ACCESS

Carbon-Nanotube Based Thermoelectrical Paste for Enhancing Solar Cell Effciency

E3S Web of Conferences (2018) 64

DOI: 10.1051/e3sconf/20186402005

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Abstract

A super-passive cooling technique based on a thermal paste is proposed for PV efficiency enhancement in elevated temperature conditions. A mixture between carbon nanotubes and graphene having a promising Seebeck coefficient is chosen. An overall enhancement in efficiency by around 58% was reached while thermoelectrically supplying hundreds of micro-Watt per PV Watt.

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Mohamed, F. S., Ahmed, S., Sameh, O. A., Iman, E., Hani, A. G., & Khaled, K. (2018). Carbon-Nanotube Based Thermoelectrical Paste for Enhancing Solar Cell Effciency. In E3S Web of Conferences (Vol. 64). EDP Sciences. https://doi.org/10.1051/e3sconf/20186402005

Carbon-Nanotube Based Thermoelectrical Paste for Enhancing Solar Cell Effciency

Abstract

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