作 者:Nagendra S.Chauhan Sivaiah Bathula Avinash Vishwakarma Ruchi Bhardwaj Kishor Kumar Johari Bhasker Gahtori Ajay Dhar
机构地区:[1]Academy of Scientific&Innovative Research(AcSIR),CSIR-National Physical Laboratory,New Delhi 110012,India [2]Division of Advanced Materials and Devices Metrology,CSIR-National Physical Laboratory,Dr.K.S.Krishnan Marg,New Delhi 110012,India
出 处:《Journal of Materiomics》2019年第1期94-102,共9页无机材料学学报(英文)
基 金:the Board of Research in Nuclear Sciences,India for the financial support under the Scheme:37(3)/14/22/2016-BRNS with BSC.Nagendra S.Chauhan acknowledges CSIR-Senior Research Fellowship.(Grant No:31/001(0430)/2014-EMR-1);The technical support rendered by Dr.Vidya Nand Singh,Mr.Radhey Shyam,and Mr.Naval Kishor Upadhyay is also gratefully acknowledged.
摘 要:ZrCoSb based half-Heusler(HH)alloys have been widely studied as a p-type thermoelectric(TE)material for power generation applications in the mid-temperature regime.However,their intrinsically high thermal conductivity has been found to be detrimental for the improvement in their thermoelectric figure-of-merit(ZT),which presently is far below unity.In the current work,a state-of-the-art ZT~1.1 at 873 K was realized in an optimized composition of nanostructured Zr1-xHfxCoSb_(0.9)Sn_(0.1) HH alloys by employing compositional modulation i.e.grain-by-grain compositional variations,which leads to a substantial increase in its power factor coupled with a concurrent decrease in its thermal conductivity.Significant reduction in the phonon mean-free-path is observed on Hf substitution,which is comparable to the average crystallite size(~25 nm),thus leading to a very low thermal conductivity of~2.2Wm^(-1)K^(-1) at 873 K,which is amongst the lowest reported in HH alloys.The TE device characteristics,estimated using cumulative temperature dependence model for quantitative evaluation of TE performance,yielded an output power density of~10 Wcm�2 with a leg efficiency of~10%in the optimized composition of nanostructured Zr_(1-x)Hf_(x)CoSb_(0.9)Sn_(0.1) HH alloys,which is comparable to the reported efficiencies of other state-of-the-art TE materials.
关 键 词:Half Heuslers Iso-electronic Waste heat recovery Mid-temperature EFFICIENCY Compositional modulation
分 类 号:TG1[金属学及工艺—金属学]
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