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利用氧化镧纳米填料调控RPET的带隙和介电性能以用于紫外屏蔽和光电应用
Tailoring bandgap and dielectric properties of RPET using lanthanum oxide nanofillers for UV-shielding and optoelectronic applications
| 作者 | Amr Antar · Mahmoud M. Maghawry |
| 期刊 | Journal of Materials Science: Materials in Electronics |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 36.0 卷 |
| 技术分类 | 储能系统技术 |
| 技术标签 | SiC器件 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 功能化改性 氧化镧纳米颗粒 回收聚对苯二甲酸乙二醇酯 分子静电势 性能提升 |
语言:
中文摘要
本研究报道了通过添加1、2、4和8 wt.%的氧化镧(La₂O₃)纳米粒子对回收聚对苯二甲酸乙二醇酯(RPET)进行功能化改性,以提升其在先进材料应用中的物理化学、光学、介电和热学性能。分子静电势(MESP)分析表明,随着La₂O₃的引入,电荷重新分布增强且电负性增加,显示出化学反应活性的提高以及在能量存储系统中的潜在应用价值。X射线衍射(XRD)结果证实材料结构由非晶态向半结晶态转变,其中在4 wt.% La₂O₃含量时达到最大值;而傅里叶变换红外光谱(FT-IR)显示特征峰位移及新键形成,证明RPET与La₂O₃之间存在强相互作用。光学研究表明,随着La₂O₃含量的增加,材料在紫外区的吸收系数(α)显著提高,表明光子与聚合物之间的相互作用增强,同时在可见光区域仍保持高透明度。直接光学带隙随填料含量增加而降低,从纯RPET的3.98 eV降至8 wt.%时的3.77 eV,进一步证实了基体与填料间的相互作用以及光学性能的可调性。介电性能分析显示,介电常数(ε′)、介电损耗(ε″)和交流电导率(σ_AC)均有显著改善,其中4 wt.%复合材料在100 °C时表现出最高的σ_AC值(1.12 × 10⁻⁵ S·cm⁻¹),并在宽频率范围内展现出稳定的介电性能。热分析(TGA和DSC)结果表明材料的热稳定性得到提升,其中4 wt.%样品的初始分解温度提高了12 °C,熔融行为发生改变,说明形成了强界面结合和耐热相结构。上述结果表明,4 wt.% La₂O₃为最优添加量,可在光学吸收、介电稳定性、导电性和耐热性之间实现综合性能的平衡,从而确立La₂O₃-RPET纳米复合材料作为适用于电子与能源领域的紫外屏蔽、介电及热稳定导电材料的潜力候选者。
English Abstract
This study reports the functionalization of recycled polyethylene terephthalate (RPET) with lanthanum oxide (La 2 O 3 ) nanoparticles at loadings of 1, 2, 4, and 8 wt.% to enhance its physicochemical, optical, dielectric, and thermal properties for advanced material applications. Molecular electrostatic potential (MESP) analysis revealed enhanced charge redistribution and increased electronegativity with La 2 O 3 incorporation, indicating improved chemical reactivity and potential in energy storage systems. X-ray diffraction (XRD) confirmed a transition from amorphous to semi-crystalline structures, maximized at 4 wt.% La 2 O 3 , while FT-IR spectra displayed characteristic peak shifts and bond formations evidencing strong RPET-La 2 O 3 interactions. Optical studies revealed a marked increase in the UV-region absorption coefficient (α) with increasing La 2 O 3 content, indicating enhanced photon-polymer interactions, while maintaining high transparency in the visible region. The direct optical band gap decreased from 3.98 eV (pristine RPET) to 3.77 eV at 8 wt.% loading, confirming matrix-filler interaction and tunability of optical properties. Dielectric analysis showed significant improvements in dielectric constant (ε′), dielectric loss (ε″), and AC conductivity (σ AC ), with the 4 wt.% composite exhibiting the highest σ AC (1.12 × 10 –5 S·cm −1 at 100 °C) and stable dielectric performance over a broad frequency range. Thermal analysis (TGA and DSC) confirmed enhanced thermal stability, with the 4 wt.% sample exhibiting a 12 °C increase in onset decomposition temperature and altered melting profiles, indicating strong interfacial bonding and the formation of thermally resistant phases. These findings identify 4 wt.% La 2 O 3 as the optimal loading, offering a balanced improvement in optical absorption, dielectric stability, conductivity, and thermal resistance, thereby establishing La 2 O 3 -RPET nanocomposites as promising candidates for UV-shielding, dielectric, and thermally stable conductive materials for electronic and energy applications.
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SunView 深度解读
该La₂O₃-RPET纳米复合材料研究对阳光电源储能系统具有重要参考价值。其优化的介电性能(4wt%时AC电导率达1.12×10⁻⁵ S·cm⁻¹)和可调带隙特性,可启发ST系列PCS中电容器介质材料的改进,提升功率密度和温度稳定性。增强的UV屏蔽和热稳定性(分解温度提升12°C)对户外储能柜PowerTitan的封装材料选型有借鉴意义,可延长系统寿命。该材料的宽频介电稳定性与SiC器件高频开关特性匹配,可优化EMI屏蔽设计,支撑三电平拓扑的高效运行。