Prussian Blue Analogues as Promising Thermal Power Generation Materials

Yuya Fukuzumi; Kaoru Amaha; Wataru Kobayashi; Hideharu Niwa; Yutaka Mortitomo

doi:10.1002/ente.201700952

Prussian Blue Analogues as Promising Thermal Power Generation Materials

Yuya Fukuzumi, Kaoru Amaha, Wataru Kobayashi, Hideharu Niwa, Yutaka Mortitomo^*

^*この研究の対応する著者

研究成果: Article › 査読

19 被引用数 (Scopus)

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The thermal coefficient (α=dV/dT) of redox potential (V) enables an efficient thermal power generation using waste heat. Actually, a battery-type thermocell, which consists of two kinds of redoxable solids with different α as anode and cathode, is demonstrated to produce electric energy in thermal cycles. To fabricate high performance device, α is systematically investigated in three kinds of Prussian blue analogues (PBAs), Na_xCo[Fe(CN)₆]_0.71 (abbreviated as NCF71), Na_xCo[Fe(CN)₆]_0.90 (NCF90) and Na_xMn[Fe(CN)₆]_0.83 (NMF83), against the Na⁺ concentration (x). NCF90 shows the highest positive α (=1.4 mV K⁻¹) in the lower-lying plateau while NMF83 shows the highest negative α (=−0.4 mV K⁻¹) in the lower-lying plateau. In addition, the NCF90/NMF83 thermocell produces 5.5 meV/NCF90 in the initial cycle between T_L (=286 K) and T_H (=313 K). The thermal efficiency (η=2.3 %) reaches 27 % of the Carnot efficiency (η_carnot=8.7 %). Thus, PBAs are promising materials for thermal power generation.

本文言語	English
ジャーナル	Energy Technology
DOI	https://doi.org/10.1002/ente.201700952
出版ステータス	Accepted/In press - 2018 1月 1
外部発表	はい

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title = "Prussian Blue Analogues as Promising Thermal Power Generation Materials",

abstract = "The thermal coefficient (α=dV/dT) of redox potential (V) enables an efficient thermal power generation using waste heat. Actually, a battery-type thermocell, which consists of two kinds of redoxable solids with different α as anode and cathode, is demonstrated to produce electric energy in thermal cycles. To fabricate high performance device, α is systematically investigated in three kinds of Prussian blue analogues (PBAs), NaxCo[Fe(CN)6]0.71 (abbreviated as NCF71), NaxCo[Fe(CN)6]0.90 (NCF90) and NaxMn[Fe(CN)6]0.83 (NMF83), against the Na+ concentration (x). NCF90 shows the highest positive α (=1.4 mV K−1) in the lower-lying plateau while NMF83 shows the highest negative α (=−0.4 mV K−1) in the lower-lying plateau. In addition, the NCF90/NMF83 thermocell produces 5.5 meV/NCF90 in the initial cycle between TL (=286 K) and TH (=313 K). The thermal efficiency (η=2.3 %) reaches 27 % of the Carnot efficiency (ηcarnot=8.7 %). Thus, PBAs are promising materials for thermal power generation.",

keywords = "Prussian blue analogues, thermal coefficient of redox potential, thermal power generation",

author = "Yuya Fukuzumi and Kaoru Amaha and Wataru Kobayashi and Hideharu Niwa and Yutaka Mortitomo",

year = "2018",

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doi = "10.1002/ente.201700952",

language = "English",

journal = "Energy Technology",

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T1 - Prussian Blue Analogues as Promising Thermal Power Generation Materials

AU - Fukuzumi, Yuya

AU - Amaha, Kaoru

AU - Kobayashi, Wataru

AU - Niwa, Hideharu

AU - Mortitomo, Yutaka

PY - 2018/1/1

Y1 - 2018/1/1

N2 - The thermal coefficient (α=dV/dT) of redox potential (V) enables an efficient thermal power generation using waste heat. Actually, a battery-type thermocell, which consists of two kinds of redoxable solids with different α as anode and cathode, is demonstrated to produce electric energy in thermal cycles. To fabricate high performance device, α is systematically investigated in three kinds of Prussian blue analogues (PBAs), NaxCo[Fe(CN)6]0.71 (abbreviated as NCF71), NaxCo[Fe(CN)6]0.90 (NCF90) and NaxMn[Fe(CN)6]0.83 (NMF83), against the Na+ concentration (x). NCF90 shows the highest positive α (=1.4 mV K−1) in the lower-lying plateau while NMF83 shows the highest negative α (=−0.4 mV K−1) in the lower-lying plateau. In addition, the NCF90/NMF83 thermocell produces 5.5 meV/NCF90 in the initial cycle between TL (=286 K) and TH (=313 K). The thermal efficiency (η=2.3 %) reaches 27 % of the Carnot efficiency (ηcarnot=8.7 %). Thus, PBAs are promising materials for thermal power generation.

AB - The thermal coefficient (α=dV/dT) of redox potential (V) enables an efficient thermal power generation using waste heat. Actually, a battery-type thermocell, which consists of two kinds of redoxable solids with different α as anode and cathode, is demonstrated to produce electric energy in thermal cycles. To fabricate high performance device, α is systematically investigated in three kinds of Prussian blue analogues (PBAs), NaxCo[Fe(CN)6]0.71 (abbreviated as NCF71), NaxCo[Fe(CN)6]0.90 (NCF90) and NaxMn[Fe(CN)6]0.83 (NMF83), against the Na+ concentration (x). NCF90 shows the highest positive α (=1.4 mV K−1) in the lower-lying plateau while NMF83 shows the highest negative α (=−0.4 mV K−1) in the lower-lying plateau. In addition, the NCF90/NMF83 thermocell produces 5.5 meV/NCF90 in the initial cycle between TL (=286 K) and TH (=313 K). The thermal efficiency (η=2.3 %) reaches 27 % of the Carnot efficiency (ηcarnot=8.7 %). Thus, PBAs are promising materials for thermal power generation.

KW - Prussian blue analogues

KW - thermal coefficient of redox potential

KW - thermal power generation

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Prussian Blue Analogues as Promising Thermal Power Generation Materials

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