%0 Journal Article %T 硼化铌掺杂石榴石固态电解质的制备工艺优化与电化学性能研究
Optimization of Preparation Process for Boron Niobium Doped Garnet Solid Electrolyte Research on Electrochemical Performance %A 张真硕 %A 杨晨 %A 刘圣奇 %A 王积辉 %A 孙浩宁 %A 阮立利 %A 刘争 %J Material Sciences %P 784-795 %@ 2160-7621 %D 2025 %I Hans Publishing %R 10.12677/ms.2025.154083 %X 本研究旨在通过引入不同浓度的NbB₂掺杂，探索其对LLZTO(Li_6.75La₃Zr₁_.75Ta₀_.₂₅O₁₂)固态电解质性能的影响。研究表明，适量的NbB₂掺杂能够显著改善LLZTO的微观结构和电化学性能。通过球磨法将NbB₂引入LLZTO中，结果表明，1%掺杂浓度的NbB₂在1150℃下烧结2小时的样品表现出最佳的电化学性能，室温下的离子电导率为8.16 × 10⁻⁴ S·cm⁻¹，阻抗最低，仅为210 Ω。进一步的研究表明，掺杂NbB₂有助于优化LLZTO的离子迁移路径，增强界面稳定性，并改善晶界的融合，降低烧结过程中的失败率。X射线衍射(XRD)和扫描电子显微镜(SEM)分析显示，掺杂的NbB₂均匀分布于LLZTO的晶格和晶界中，未引起主晶相的显著变化，且材料的晶相结构保持稳定。XPS分析主要揭示了掺杂5% NbB₂后，LLZTO样品中Nb和B元素的化学状态及其与材料性能之间的潜在关系，混合价态有助于提升离子导电性增强和改善界面稳定性。电化学测试表明，掺杂NbB₂的LLZTO陶瓷样品在长循环过程中展现出优异的稳定性，特别是1%掺杂浓度的样品，其极化电压较低，库仑效率接近100%，显著提高了电池的循环寿命。
This study aims to explore the effects of NbB₂ doping at varying concentrations on the performance of LLZTO (Li_6.75La₃Zr₁_.75Ta₀_.₂₅O₁₂) solid-state electrolytes. The results demonstrate that appropriate NbB₂ doping significantly improves the microstructure and electrochemical properties of LLZTO. Through the ball milling method, NbB₂ was incorporated into LLZTO, and the sample with 1% NbB₂ doping sintered at 1150˚C for 2 hours exhibited optimal electrochemical performance, achieving a room-temperature ionic conductivity of 8.16 × 10⁻⁴ S·cm⁻¹ and the lowest impedance of 210 Ω. Further analysis revealed that NbB₂ doping optimizes lithium-ion migration pathways, enhances interfacial stability, improves grain boundary fusion, and reduces failure rates during sintering. X-ray diffraction (XRD) and scanning electron microscopy (SEM) analyses confirmed the uniform distribution of NbB₂ within the LLZTO lattice and grain boundaries, with no significant alteration to the main crystalline phase and maintained structural stability. XPS analysis mainly reveals the chemical states of Nb and B elements in LLZTO samples doped with 5% NbB₂ and their potential relationship with material properties. The mixed valence state helps to enhance ion conductivity and improve interface stability. Electrochemical tests indicated that NbB₂-doped LLZTO ceramic samples exhibit excellent cycling stability, %K LLZTO， %K NbB₂掺杂， %K 固态电解质， %K 离子电导率
LLZTO %K NbB₂ Doping %K Solid-State Electrolyte %K Ionic Conductivity %U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=112818