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200 related items for PubMed ID: 37895734

  • 1. Improved Energy Storage Density and Efficiency of Nd and Mn Co-Doped Ba0.7Sr0.3TiO3 Ceramic Capacitors Via Defect Dipole Engineering.
    Choi H, Pattipaka S, Son YH, Bae YM, Park JH, Jeong CK, Lee HE, Kim SD, Ryu J, Hwang GT.
    Materials (Basel); 2023 Oct 18; 16(20):. PubMed ID: 37895734
    [Abstract] [Full Text] [Related]

  • 2. Capturing Carriers and Driving Depolarization by Defect Engineering for Dielectric Energy Storage.
    Zhao Y, Yang B, Liu Y, Zhou Y, Wu Q, Zhao S.
    ACS Appl Mater Interfaces; 2022 Feb 09; 14(5):6547-6559. PubMed ID: 35080364
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  • 4. Enhanced Energy Storage Performance and Efficiency in Bi0.5(Na0.8K0.2)0.5TiO3-Bi0.2Sr0.7TiO3 Relaxor Ferroelectric Ceramics via Domain Engineering.
    Pattipaka S, Choi H, Lim Y, Park KI, Chung K, Hwang GT.
    Materials (Basel); 2023 Jul 09; 16(14):. PubMed ID: 37512187
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  • 6. Enhanced Energy Storage Properties in Lead-Free (Na0.5Bi0.5)0.7Sr0.3TiO3-Based Relaxor Ferroelectric Ceramics through a Cooperative Optimization Strategy.
    Wang W, Zhang L, Shi W, Yang Y, Alikin D, Shur V, Lou Z, Wang D, Zhang A, Gao J, Wei X, Du H, Gao F, Jin L.
    ACS Appl Mater Interfaces; 2023 Feb 08; 15(5):6990-7001. PubMed ID: 36694407
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  • 7. Ceramic-Based Dielectric Materials for Energy Storage Capacitor Applications.
    Pattipaka S, Lim Y, Son YH, Bae YM, Peddigari M, Hwang GT.
    Materials (Basel); 2024 May 11; 17(10):. PubMed ID: 38793340
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  • 9. Enhanced Energy Storage Performance by A-B Site Ambipolar Co-Doping in Antiferroelectrics.
    Wu D, Dong W, Yang Y, Chen L, Xiao W, Zhang C, Zou K, Zhou W, Luo W, Zhang G, Fu Q, Jiang S.
    ACS Appl Mater Interfaces; 2023 Mar 13. PubMed ID: 36914377
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  • 10. Manipulating magnetoelectric properties by interfacial coupling in La0.3Sr0.7MnO3/Ba0.7Sr0.3TiO3 superlattices.
    Guo H, Li Q, Yang Z, Jin KJ, Ge C, Gu L, He X, Li X, Zhao R, Wan Q, Wang J, He M, Wang C, Lu H, Yang Y, Yang G.
    Sci Rep; 2017 Aug 09; 7(1):7693. PubMed ID: 28794426
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  • 11. Enhanced Piezoelectric, Ferroelectric, and Electrostrictive Properties of Lead-Free (1-x)BCZT-(x)BCST Electroceramics with Energy Harvesting Capability.
    Baraskar BG, Kolekar YD, Thombare BR, James AR, Kambale RC, Ramana CV.
    Small; 2023 Sep 09; 19(37):e2300549. PubMed ID: 37203304
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  • 13. Controllable Piezo-flexoelectric Effect in Ferroelectric Ba0.7Sr0.3TiO3 Materials for Harvesting Vibration Energy.
    Xia Y, Ji Y, Liu Y, Wu L, Yang Y.
    ACS Appl Mater Interfaces; 2022 Aug 17; 14(32):36763-36770. PubMed ID: 35939364
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  • 14. Lead-Free Relaxor Ferroelectric Ceramics with Ultrahigh Energy Storage Densities via Polymorphic Polar Nanoregions Design.
    Li D, Zhou D, Wang D, Zhao W, Guo Y, Shi Z, Zhou T, Sun SK, Singh C, Trukhanov S, Sombra ASB.
    Small; 2023 Feb 17; 19(8):e2206958. PubMed ID: 36507596
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  • 15. Aliovalent Doping Engineering for A- and B-Sites with Multiple Regulatory Mechanisms: A Strategy to Improve Energy Storage Properties of Sr0.7Bi0.2TiO3-Based Lead-Free Relaxor Ferroelectric Ceramics.
    Zhao P, Fang Z, Zhang X, Chen J, Shen Y, Zhang X, An Q, Yang C, Gao X, Zhang S, Tang B.
    ACS Appl Mater Interfaces; 2021 Jun 02; 13(21):24833-24855. PubMed ID: 34014637
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  • 16. Enhanced Energy-Storage Density and High Efficiency of Lead-Free CaTiO3-BiScO3 Linear Dielectric Ceramics.
    Luo B, Wang X, Tian E, Song H, Wang H, Li L.
    ACS Appl Mater Interfaces; 2017 Jun 14; 9(23):19963-19972. PubMed ID: 28537373
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  • 17. Mechanisms of enhanced performance in Zr4+/Ta5+ codoped rutile-TiO2 ceramics via broadband dielectric spectroscopy.
    Mingmuang Y, Chanlek N, Takesada M, Harnchana V, Jarernboon W, Moontragoon P, Srepusharawoot P, Swatsitang E, Thongbai P.
    Sci Rep; 2024 Oct 08; 14(1):23406. PubMed ID: 39379422
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  • 20. Ultrahigh Energy Storage in Tungsten Bronze Dielectric Ceramics Through a Weakly Coupled Relaxor Design.
    Gao Y, Qiao W, Lou X, Song Z, Zhu X, He L, Yang B, Hu Y, Shao J, Wang D, Chen Z, Zhang S.
    Adv Mater; 2024 Mar 08; 36(11):e2310559. PubMed ID: 38084796
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