Excellent Energy Storage Performance of ZnO doped (Pb,La)(Zr,Sn,Ti)O 3 Based Antiferroelectric Ceramics at an Ultra‐Low Sintering Temperature of 940 °C

(Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics have excellent energy storage performance(more than 90% efficiency), which make them have great application advantages in the field of ceramic capacitors. However, the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric cerami...

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Veröffentlicht in:	Advanced functional materials 2024-08, Vol.34 (33)
Hauptverfasser:	Zhao, Han, Xu, Ran, Wang, Meng Jiao, Wang, Gang, Sun, Hong Chen, Wang, Xiao Zhi, Zhu, Qing Shan, Wei, Xiao Yong, Feng, Yu Jun, Xu, Zhuo
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creator	Zhao, Han Xu, Ran Wang, Meng Jiao Wang, Gang Sun, Hong Chen Wang, Xiao Zhi Zhu, Qing Shan Wei, Xiao Yong Feng, Yu Jun Xu, Zhuo
description	(Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics have excellent energy storage performance(more than 90% efficiency), which make them have great application advantages in the field of ceramic capacitors. However, the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics is generally above 1250 °C, which limits application as a material for ceramic capacitors. Cu inner electrode has a low co‐firing temperature and high conductivity and a low cost price, making it more competitive in the field of ceramic capacitor inner electrode. Therefore, the first step is to reduce the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based ceramics to below 1000 °C(co‐firing temperature with Cu inner electrode), which is the key and difficult point. In this paper, Pb 0.94 La 0.02 Sr 0.04 (Zr 0.45 Sn 0.47 Ti 0.08 ) 0.995 O 3 (PLSZST) antiferroelectric ceramics are doped with ZnO, which effectively reduce the sintering temperature. Among them, PLSZST‐1 wt% ZnO is sintered at an ultra‐low sintering temperature ( T Sintering = 940 °C), which is 330 °C lower than that of PLSZST( T Sintering = 1270 °C) without doping ZnO. At the same time, PLSZST‐1 wt%ZnO obtain a recoverable energy density of 4.26J cm −3 and an energy efficiency of 95.5% at 230 kV cm −1 . The pulse discharge energy density ( W dis = 3.92 J cm −3 ) and discharge time ( t 0.9 = 351 ns) are obtained at 220 kV cm −1 , and the current density ( C D = 1338A cm −2 ) and power density (P D = 134MW cm −3 ) are obtained at 200 kV cm −1 . The results provide a possible material basis for Cu internal electrode ceramic capacitors.
doi_str_mv	10.1002/adfm.202316674
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However, the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics is generally above 1250 °C, which limits application as a material for ceramic capacitors. Cu inner electrode has a low co‐firing temperature and high conductivity and a low cost price, making it more competitive in the field of ceramic capacitor inner electrode. Therefore, the first step is to reduce the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based ceramics to below 1000 °C(co‐firing temperature with Cu inner electrode), which is the key and difficult point. In this paper, Pb 0.94 La 0.02 Sr 0.04 (Zr 0.45 Sn 0.47 Ti 0.08 ) 0.995 O 3 (PLSZST) antiferroelectric ceramics are doped with ZnO, which effectively reduce the sintering temperature. Among them, PLSZST‐1 wt% ZnO is sintered at an ultra‐low sintering temperature ( T Sintering = 940 °C), which is 330 °C lower than that of PLSZST( T Sintering = 1270 °C) without doping ZnO. At the same time, PLSZST‐1 wt%ZnO obtain a recoverable energy density of 4.26J cm −3 and an energy efficiency of 95.5% at 230 kV cm −1 . The pulse discharge energy density ( W dis = 3.92 J cm −3 ) and discharge time ( t 0.9 = 351 ns) are obtained at 220 kV cm −1 , and the current density ( C D = 1338A cm −2 ) and power density (P D = 134MW cm −3 ) are obtained at 200 kV cm −1 . The results provide a possible material basis for Cu internal electrode ceramic capacitors.</description><identifier>ISSN: 1616-301X</identifier><identifier>EISSN: 1616-3028</identifier><identifier>DOI: 10.1002/adfm.202316674</identifier><language>eng</language><ispartof>Advanced functional materials, 2024-08, Vol.34 (33)</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-crossref_primary_10_1002_adfm_2023166743</cites><orcidid>0009-0008-8970-398X ; 0000-0002-2655-0399</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27903,27904</link.rule.ids></links><search><creatorcontrib>Zhao, Han</creatorcontrib><creatorcontrib>Xu, Ran</creatorcontrib><creatorcontrib>Wang, Meng Jiao</creatorcontrib><creatorcontrib>Wang, Gang</creatorcontrib><creatorcontrib>Sun, Hong Chen</creatorcontrib><creatorcontrib>Wang, Xiao Zhi</creatorcontrib><creatorcontrib>Zhu, Qing Shan</creatorcontrib><creatorcontrib>Wei, Xiao Yong</creatorcontrib><creatorcontrib>Feng, Yu Jun</creatorcontrib><creatorcontrib>Xu, Zhuo</creatorcontrib><title>Excellent Energy Storage Performance of ZnO doped (Pb,La)(Zr,Sn,Ti)O 3 Based Antiferroelectric Ceramics at an Ultra‐Low Sintering Temperature of 940 °C</title><title>Advanced functional materials</title><description>(Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics have excellent energy storage performance(more than 90% efficiency), which make them have great application advantages in the field of ceramic capacitors. However, the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics is generally above 1250 °C, which limits application as a material for ceramic capacitors. Cu inner electrode has a low co‐firing temperature and high conductivity and a low cost price, making it more competitive in the field of ceramic capacitor inner electrode. Therefore, the first step is to reduce the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based ceramics to below 1000 °C(co‐firing temperature with Cu inner electrode), which is the key and difficult point. In this paper, Pb 0.94 La 0.02 Sr 0.04 (Zr 0.45 Sn 0.47 Ti 0.08 ) 0.995 O 3 (PLSZST) antiferroelectric ceramics are doped with ZnO, which effectively reduce the sintering temperature. Among them, PLSZST‐1 wt% ZnO is sintered at an ultra‐low sintering temperature ( T Sintering = 940 °C), which is 330 °C lower than that of PLSZST( T Sintering = 1270 °C) without doping ZnO. At the same time, PLSZST‐1 wt%ZnO obtain a recoverable energy density of 4.26J cm −3 and an energy efficiency of 95.5% at 230 kV cm −1 . The pulse discharge energy density ( W dis = 3.92 J cm −3 ) and discharge time ( t 0.9 = 351 ns) are obtained at 220 kV cm −1 , and the current density ( C D = 1338A cm −2 ) and power density (P D = 134MW cm −3 ) are obtained at 200 kV cm −1 . 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However, the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based antiferroelectric ceramics is generally above 1250 °C, which limits application as a material for ceramic capacitors. Cu inner electrode has a low co‐firing temperature and high conductivity and a low cost price, making it more competitive in the field of ceramic capacitor inner electrode. Therefore, the first step is to reduce the sintering temperature of (Pb,La)(Zr,Sn,Ti)O 3 ‐based ceramics to below 1000 °C(co‐firing temperature with Cu inner electrode), which is the key and difficult point. In this paper, Pb 0.94 La 0.02 Sr 0.04 (Zr 0.45 Sn 0.47 Ti 0.08 ) 0.995 O 3 (PLSZST) antiferroelectric ceramics are doped with ZnO, which effectively reduce the sintering temperature. Among them, PLSZST‐1 wt% ZnO is sintered at an ultra‐low sintering temperature ( T Sintering = 940 °C), which is 330 °C lower than that of PLSZST( T Sintering = 1270 °C) without doping ZnO. At the same time, PLSZST‐1 wt%ZnO obtain a recoverable energy density of 4.26J cm −3 and an energy efficiency of 95.5% at 230 kV cm −1 . The pulse discharge energy density ( W dis = 3.92 J cm −3 ) and discharge time ( t 0.9 = 351 ns) are obtained at 220 kV cm −1 , and the current density ( C D = 1338A cm −2 ) and power density (P D = 134MW cm −3 ) are obtained at 200 kV cm −1 . The results provide a possible material basis for Cu internal electrode ceramic capacitors.</abstract><doi>10.1002/adfm.202316674</doi><orcidid>https://orcid.org/0009-0008-8970-398X</orcidid><orcidid>https://orcid.org/0000-0002-2655-0399</orcidid></addata></record>
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title	Excellent Energy Storage Performance of ZnO doped (Pb,La)(Zr,Sn,Ti)O 3 Based Antiferroelectric Ceramics at an Ultra‐Low Sintering Temperature of 940 °C
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