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介电、压电、铁电 (2022 ~ 2023)

点击查阅本刊2021年及之前发表的同主题论文

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Xue M, Tang Y, Shan Z, et al. Deciphering the leakage conduction mechanism of BiFeO₃–BaTiO₃ lead-free piezoelectric ceramics. Journal of Advanced Ceramics, 2023, 12 (10): 1844-1856.

He J, Wang C, Li J, et al. Machine learning assisted prediction of dielectric temperature spectrum of ferroelectrics. Journal of Advanced Ceramics, 2023, 12 (9): 1793-1804.

Chen Y, Li L, Zhou Z, et al. La₂O₃-modified BiYbO₃–Pb(Zr,Ti)O₃ ternary piezoelectric ceramics with enhanced electrical properties and thermal depolarization temperature. Journal of Advanced Ceramics, 2023, 12 (8): 1593-1611.
品味“仙桃” | 具有增强电学性能和抗热退极化能力的La₂O₃改性BiYbO₃-Pb(Zr, Ti)O₃三元压电陶瓷

Ruan H, Saunders TG, Giddens H, et al. Microwave characterization of two Ba_0.6Sr_0.4TiO₃ dielectric thin films with out-of-plane and in-plane electrode structures. Journal of Advanced Ceramics, 2023, 12 (8): 1521-1532.

Hu Q, Zhang Y, Liao H, et al. Greatly enhanced electro-optic modulation efficiency in titanium in-diffusion PIN–PMN–PT waveguide. Journal of Advanced Ceramics, 2023, 12 (7): 1454-1462.
品味“仙桃” | 实现小型低功耗电光调制器新途径：在PIN-PMN-PT单晶钛扩散光波导中获得显著增强的电光调制效率

Hu M, Chang Z, Nie N, et al. La-doped PMN–PT transparent ceramics with ultra-high electro-optic effect and its application in optical devices. Journal of Advanced Ceramics, 2023, 12 (7): 1441-1453.
品味“仙桃” | PMN-PT透明陶瓷的高电光效应机制和光器件应用

Chen J, Mao J, Wang Z, et al. Bandgap narrowing and polarization enhancement in (K,Na,Li)(Nb,Sb,Ta)O₃+x% Fe₂O₃ lead-free ceramics for photovoltaic applications. Journal of Advanced Ceramics, 2023, 12 (7): 1406-1417.
品味“仙桃” | 新型无铅大极化窄带隙铁电材料为高效铁电光伏器件带来希望

Gu W, Yang B, Li D, et al. Accelerated design of lead-free high-performance piezoelectric ceramics with high accuracy via machine learning. Journal of Advanced Ceramics, 2023, 12 (7): 1389-1405.
品味“仙桃” | AI助力开发高性能陶瓷材料：快速准确预测压电性能的新策略

Hu Z, Koval V, Zhang H, et al. Enhanced piezoelectricity in Na and Ce co-doped CaBi₄Ti₄O₁₅ ceramics for high-temperature applications. Journal of Advanced Ceramics, 2023, 12 (7): 1331-1344.
品味“仙桃” | 复合离子取代调控CaBi₄Ti₄O₁₅高温压电陶瓷的畴结构和铁电压电性能

Huan Y, Hou L, Wei T, et al. High-performance (K,Na)NbO₃-based multilayer piezoelectric ceramic actuators with nickel inner electrodes. Journal of Advanced Ceramics, 2023, 12 (6): 1228-1237.
品味“仙桃” | KNN基无铅压电多层陶瓷新发展——与贱金属Ni电极的还原共烧

Xue X, Li X, Fu C, et al. Sintering characteristics, phase transitions, and microwave dielectric properties of low-firing [(Na_0.5Bi_0.5)_xBi_1-x](W_xV_1-x)O₄ solid solution ceramics. Journal of Advanced Ceramics, 2023, 12 (6): 1178-1188.
品味“仙桃” | 结构相变与有序-无序协同调控BiVO4基高介微波介质陶瓷

Zhao M, Wang J, Zhang J, et al. Ultrahigh energy storage performance realized in AgNbO₃-based antiferroelectric materials via multiscale engineering. Journal of Advanced Ceramics, 2023, 12 (6): 1166-1177.

Liu M, Xu Z. Micromechanical characterization of microwave dielectric ceramic BaO–Sm₂O₃–5TiO₂ by indentation and scratch methods. Journal of Advanced Ceramics, 2023, 12 (6): 1136-1165.
品味“仙桃” | 仪器化压入和划入测试方法在表征脆性陶瓷微观力学性能的应用

Chen D, Yan N, Cao X, et al. Entropy regulation in LaNbO₄-based fergusonite to implement high-temperature phase transition and promising dielectric properties. Journal of Advanced Ceramics, 2023, 12 (5): 1067-1080.
品味“仙桃” | 微波介质陶瓷的熵调控探索——以稀土铌酸盐ReNbO₄陶瓷为例

Zhang T, Shi Z, Yin C, et al. Tunable polarization-drived superior energy storage performance in PbZrO₃ thin films. Journal of Advanced Ceramics, 2023, 12 (5): 930-942
品味“仙桃” | 反铁电锆酸铅薄膜的极化调控与介电储能性能

Wang J, Wang S, Li X, et al. High piezoelectricity and low strain hysteresis in PMN–PT-based piezoelectric ceramics. Journal of Advanced Ceramics, 2023, 12 (4): 792-802.
品味“仙桃” | 兼具高压电及低滞后的PMN-PT基压电陶瓷

Li J, Wang Z, Guo Y, et al. Influences of substituting of (Ni_1/3Nb_2/3)⁴⁺ for Ti⁴⁺ on the phase compositions, microstructures, and dielectric properties of Li₂Zn[Ti_1-x(Ni_1/3Nb_2/3)_x]₃O₈ (0 <= x <= 0.3) microwave ceramics. Journal of Advanced Ceramics, 2023, 12 (4): 760-777.
品味“仙桃” | 复合离子取代调控Li₂ZnTi₃O₈陶瓷的相组成、显微结构和微波介电性能

Ni B, Bao A, Gu Y, et al. High-entropy enhanced room-temperature ferroelectricity in rare-earth orthoferrites. Journal of Advanced Ceramics, 2023, 12 (4): 724-733.
品味“仙桃” | 无序的新境界：室温铁电性能显著提高的新型高熵稀土正铁氧体陶瓷

Shi X, Li K, Shen Z-Y, et al. BS_0.55BNT-based relaxor ferroelectric ceramic/glass–ceramic composites for energy storage. Journal of Advanced Ceramics, 2023, 12 (4): 695-710.
品味“仙桃” | 求同存异，弛豫铁电陶瓷-微晶玻璃复合材料让高电击穿强度和高介电常数兼顾成为可能

Fan X, Wang J, Yuan H, et al. Multi-scale synergic optimization strategy for dielectric energy storage ceramics. Journal of Advanced Ceramics, 2023, 12 (4): 649-680.
品味“仙桃” | 综述：介电储能陶瓷的多尺度协同优化策略

Yang Y, Dou Z, Zou K, et al. Regulating local electric field to optimize the energy storage performance of antiferroelectric ceramics via a composite strategy. Journal of Advanced Ceramics, 2023, 12 (3): 598-611.
品味“仙桃” | 反铁电陶瓷的“新拍档”：AlN助力储能性能优化

Szwagierczak D, Synkiewicz-Musialska B, Kulawik J, et al. Ultra-low temperature cofired ceramics based on Li₂WO₄ as perspective substrate materials for terahertz frequencies. Journal of Advanced Ceramics, 2023, 12 (3): 526-538.

Lai L, Zhao Z, Tian S, et al. Ultrahigh electrostrain with excellent fatigue resistance in textured Nb5+-doped (Bi_0.5Na_0.5)TiO₃-based piezoceramics. Journal of Advanced Ceramics, 2023, 12 (3): 487-497.
品味“仙桃” | 施主掺杂和织构化在BNT基压电陶瓷中实现高电致应变性能

Li J, Yin R, Li J, et al. Correlation between multi-factor phase diagrams and complex electrocaloric behaviors in PNZST antiferroelectric ceramic system. Journal of Advanced Ceramics, 2023, 12 (3): 463-473.
品味“仙桃” | 反铁电电卡规律难，多因素相图立关联

Zhen L, Lu L, Yao Y, et al. Flexible inorganic piezoelectric functional films and their applications. Journal of Advanced Ceramics, 2023, 12 (3): 433-462.
品味“仙桃” | 综述：无机柔性压电薄膜及其应用

Liu Q, Pan E, Liu F, et al. (K,Na)NbO₃-based lead-free ceramics with enhanced temperature-stable piezoelectricity and efficient red luminescence. Journal of Advanced Ceramics, 2023, 12 (2): 373-385.
品味“仙桃” | 无铅KNN基无铅压电陶瓷的稀土改性：一种发展高性能光-机-电耦合特性功能陶瓷的策略

Yang H, Chai L, Liang G, et al. Structure, far-infrared spectroscopy, microwave dielectric properties, and improved low-temperature sintering characteristics of tri-rutile Mg_0.5Ti_0.5TaO₄ ceramics. Journal of Advanced Ceramics, 2023, 12 (2): 296-308.
品味“仙桃” | Tri-rutile结构Mg_0.5Ti_0.5TaO₄陶瓷的本征介电响应与低温烧结特性研究

CHENG H, ZHAI X, OUYANG J, et al. Achieving a high energy storage density in Ag(Nb,Ta)O₃ antiferroelectric films via nanograin engineering. Journal of Advanced Ceramics, 2023, 12 (1): 196-206.
品味“仙桃” | 利用纳米晶工程在Ag(Nb,Ta)O₃反铁电薄膜中实现高能量存储密度

BAO J, ZHANG Y, KIMURA H, et al. Crystal structure, chemical bond characteristics, infrared reflection spectrum, and microwave dielectric properties of Nd₂(Zr_1-xTi_x)₃(MoO₄)₉ ceramics. Journal of Advanced Ceramics, 2023, 12 (1): 82-92.
品味“仙桃” | 一种低介电Nd₂(Zr_1-xTi_x)₃(MoO₄)₉微波介质陶瓷的结构与性能关系研究

LI C-B-W, LI Z, WANG J, et al. Sodium lithium niobate lead-free piezoceramics for high-power applications: Fundamental, progress, and perspective. Journal of Advanced Ceramics, 2023, 12 (1): 1-23.

Niu X, Jian X, Gong W, et al. Field-driven merging of polarizations and enhanced electrocaloric effect in BaTiO₃-based lead-free ceramics. Journal of Advanced Ceramics, 2022, 11 (11): 1777-1788.

He T, Cao Z, Li G, et al. High efficiently harvesting visible light and vibration energy in (1-x)AgNbO₃–xLiTaO₃ solid solution around antiferroelectric–ferroelectric phase boundary for dye degradation. Journal of Advanced Ceramics, 2022, 11 (10): 1641-1653.
品味“仙桃” | 如何协同反铁电-铁电相界处高压电活性和特殊铁电畴结构提高压电/光催化活性？

Zhou X, Yang H, Xue G, et al. Optimized strain performance in <001>-textured Bi_0.5Na_0.5TiO₃-based ceramics with ergodic relaxor state and core–shell microstructure. Journal of Advanced Ceramics, 2022, 11 (10): 1542-1558.
品味“仙桃” | BNT基铁电陶瓷电致应变的相结构与晶粒织构调控

Chen Y, Qi J, Zhang M, et al. Pyrochlore-based high-entropy ceramics for capacitive energy storage. Journal of Advanced Ceramics, 2022, 11 (7): 1179-1185.
品味“仙桃” | 烧绿石基高熵陶瓷电介质储能

Huan Y, Wang X, Yang W, et al. Optimizing energy harvesting performance by tailoring ferroelectric/relaxor behavior in KNN-based piezoceramics. Journal of Advanced Ceramics, 2022, 11 (6): 935-944.
品味“仙桃” | 小陶瓷大能量：弛豫行为提高无铅压电陶瓷能量收集性能

Dong X, Li X, Chen H, et al. Realizing enhanced energy storage and hardness performances in 0.90NaNbO₃–0.10Bi(Zn_0.5Sn_0.5)O₃ ceramics. Journal of Advanced Ceramics, 2022, 11 (5): 729-741.

Guo W, Ma Z, Luo Y, et al. Structure, defects, and microwave dielectric properties of Al-doped and Al/Nd co-doped Ba₄Nd_9.33Ti₁₈O₅₄ ceramics. Journal of Advanced Ceramics, 2022, 11 (4): 629-640.
品味“仙桃” | 钨青铜结构微波介质陶瓷的改性：A/B位协同掺杂

Yu C, Tan M, Tao C, et al. Remarkably enhanced piezo-photocatalytic performance in BaTiO₃/CuO heterostructures for organic pollutant degradation. Journal of Advanced Ceramics, 2022, 11 (3): 414-426.
品味“仙桃” | 1 +1 > 2：压电效应助力光催化增强

Feng C, Zhou X, Tao B, et al. Crystal structure and enhanced microwave dielectric properties of the Ce₂[Zr_1-x(Al_1/2Ta_1/2)_x]₃(MoO₄)₉ ceramics at microwave frequency. Journal of Advanced Ceramics, 2022, 11 (3): 392-402.
品味“仙桃” | 复合离子掺杂钼基陶瓷实施结构调控与微波介电性能优化

Li Z, Li DX, Shen ZY, et al. Remarkably enhanced dielectric stability and energy storage properties in BNT-BST relaxor ceramics by A-site defect engineering for pulsed power applications. Journal of Advanced Ceramics, 2022, 11 (2): 283-294.
品味“仙桃” | A位缺陷工程增强BNT-BST基陶瓷介温稳定性与储能特性

Wang X, Huan Y, Zhu Y, et al. Defect engineering of BCZT-based piezoelectric ceramics with high piezoelectric properties. Journal of Advanced Ceramics, 2022, 11 (1): 184-195.
品味“仙桃” | 如何通过调控缺陷工程研制高压电性能的BCTZ基陶瓷？

Luo C, Karaki T, Wang Z, et al. High piezoelectricity after field cooling AC poling in temperature stable ternary single crystals manufactured by continuous-feeding Bridgman method. Journal of Advanced Ceramics, 2022, 11 (1): 57-65.

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点击查阅本刊2021年及之前发表的同主题论文

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