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dc.contributor.authorXin Zhang
dc.contributor.authorYee Sin Ang
dc.contributor.authorJian-Ying Du
dc.contributor.authorJincan Chen
dc.contributor.authorLay Kee Ang
dc.date.accessioned2020-10-10T02:40:22Z
dc.date.available2020-10-10T02:40:22Z
dc.date.issued2019-12-05
dc.identifier.citationJournal of Cleaner Production,2019,
dc.identifier.other10.1016/j.jclepro.2019.118444
dc.identifier.urihttps://dspace.xmu.edu.cn/handle/2288/175218
dc.description.abstractAbstract(#br)Solar energy conversion to electricity usually adopts two main methods: photovoltaic and solar-thermal power generation. Here, graphene-based thermionic-thermoradiative solar cells are expanded to include photovoltaics based on thermionic-thermoradiative converters, hybrid concept, efficiency limit, and optimum design. For realistic and practical design, a comprehensive and consistent model is formulated to include effects of thermal coupling between the absorbers, space-charge effect, non-radiative recombination, and various irreversible energy losses. By combining thermionic emission and thermoradiative mechanisms, thermionic-thermoradiative solar cells make use of electron and photon fluxes simultaneously to efficiently convert solar radiation to electricity, and thus enable a significant improvement in terms of heat utilization and conversion efficiency. Based on the calculated results, optimum choices of materials and the parametric design strategies of the system are determined. The findings predict a high solar-to-electricity efficiency of 0.225 in using a graphene-caesiated tungsten graphene-based thermionic energy converter and an Aluminium-32 gallium-48 arsenide-based thermoradiative cell under 800 sun irradiance. This work also demonstrates the importance of recycling waste heat for performance optimization and opens up new avenues to boost the overall conversion efficiency of such systems.
dc.language.isozh_CN
dc.subjectOptoelectronic device
dc.subjectThermionic emission
dc.subjectThermoradiative conversion
dc.subjectOptimum operation
dc.titleGraphene-based thermionic-thermoradiative solar cells: Concept, efficiency limit, and optimum design
dc.typeArticle


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