用于微波基底的 Y3Fe5O12-EDTA 复合材料的单步致密化和磁介质响应

IF 5.3 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Rakhi Madhuri, Subodh Ganesanpotti
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引用次数: 0

摘要

在过去的几十年里,人们对高能效、可持续和高成本效益的消费电子产品材料和技术进行了大量研究。在这些材料中,铁氧体基化合物有望在电路微型化方面发挥重要作用。然而,此类材料的致密化是一个极具挑战性的问题。最近,人们发现冷烧结工艺(CSP)是生产先进材料的另一种策略,可以在低温下实现材料的致密化。本研究利用不同体积分数的 Y3Fe5O12 和 EDTA 来创建致密复合材料体系。在此,我们报告了通过 CSP 合成式 (1 -x)Y3Fe5O12-xEDTA (x = 0.2, 0.3, 0.4, 0.5) 的复合材料。这些复合材料的介电常数为 6.4-7,损耗正切为 10-2。此外,0.5 EDTA 复合材料在 10 GHz 频率下的εr 为 5.7,tanδ 为 0.01,这表明所制备的复合材料具有基底应用的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Single-step densification and magneto-dielectric response of Y3Fe5O12–EDTA composites for microwave substrates

Single-step densification and magneto-dielectric response of Y3Fe5O12–EDTA composites for microwave substrates

Numerous studies have been conducted over the past few decades on energy-efficient, sustainable, and cost-effective materials and technologies for consumer electronics. Among such materials, ferrite-based compounds are expected to play a significant role in the miniaturization of circuits. However, densification of such materials is a very challenging problem. The cold sintering process (CSP) has recently been found as an alternative strategy for producing advanced materials, enabling their densification at low temperatures. The present work uses different volume fractions of Y3Fe5O12 with EDTA to create a dense composite system. Here, we report the synthesis of composites of the formula (1 –x)Y3Fe5O12-xEDTA (x = 0.2, 0.3, 0.4, 0.5) through CSP. These composites possess a permittivity of 6.4–7 combined with a loss tangent of 10–2. Moreover, for the 0.5 EDTA composite, εr of 5.7 and tanδ of 0.01 are obtained at 10 GHz, suggesting the prepared composites' potential for substrate applications.

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来源期刊
Materials Research Bulletin
Materials Research Bulletin 工程技术-材料科学:综合
CiteScore
9.80
自引率
5.60%
发文量
372
审稿时长
42 days
期刊介绍: Materials Research Bulletin is an international journal reporting high-impact research on processing-structure-property relationships in functional materials and nanomaterials with interesting electronic, magnetic, optical, thermal, mechanical or catalytic properties. Papers purely on thermodynamics or theoretical calculations (e.g., density functional theory) do not fall within the scope of the journal unless they also demonstrate a clear link to physical properties. Topics covered include functional materials (e.g., dielectrics, pyroelectrics, piezoelectrics, ferroelectrics, relaxors, thermoelectrics, etc.); electrochemistry and solid-state ionics (e.g., photovoltaics, batteries, sensors, and fuel cells); nanomaterials, graphene, and nanocomposites; luminescence and photocatalysis; crystal-structure and defect-structure analysis; novel electronics; non-crystalline solids; flexible electronics; protein-material interactions; and polymeric ion-exchange membranes.
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