可用于长期储能的新型 Sr0.99Zr(PO4)2:0.01Eu3+ 陶瓷玻璃

Zastita materijala Pub Date : 2024-06-15 DOI:10.62638/zasmat1133

N. Thiruveni, Muthammal Ramu, Dhanapal Prakash Babu, Sadasivam Ponkumar, Ramasamy Jayavell

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引用次数: 0

摘要

本文首次报道了以甘氨酸为燃料（燃料与氧化剂的比例为 1:1）通过溶液燃烧合成 Sr0.99Zr(PO4)2:0.01Eu3+ 陶瓷玻璃的过程。X 射线衍射证实了所需的结晶相，而舍勒分析表明平均粒径约为 60 纳米。扫描电子显微镜进一步证实了这一点，该显微镜显示颗粒大小约为 75 纳米。值得注意的是，该材料呈现出特有的介孔结构，这是溶液燃烧技术的一个标志性特征。介电研究显示了双指数衰减曲线，表明材料中存在空隙。重要的是，与 t1 相比，时间常数（t2）明显较小，这突出表明该材料适合长期储能应用。

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A novel Sr0.99Zr(PO4)2:0.01Eu3+ ceramic glass viable for long term energy storage applications

This paper reports the first-time synthesis of Sr0.99Zr(PO4)2:0.01Eu3+ ceramic glass were synthesized via solution combustion using glycine as fuel (1:1 fuel-to-oxidizer ratio). X-ray diffraction confirmed the desired crystalline phase, while Scherrer analysis indicated an average particle size of approximately 60 nm. This was further supported by scanning electron microscopy, which revealed a particle size around 75 nm. Notably, the material exhibited a characteristic mesoporous structure, a signature feature of the solution combustion technique. Dielectric studies revealed a double exponential decay profile, signifying the presence of voids within the material. Importantly, the significantly smaller time constant (t2) compared to t1 highlights the material's suitability for long-term energy storage applications.

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来源期刊

Zastita materijala Materials Science-General Materials Science

CiteScore

0.80

自引率

0.00%

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