利用渗滤技术设计具有氢化萘修饰晶界的氧化锌复合材料，以获得类似压敏电阻的性能

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS

Open Ceramics Pub Date : 2024-11-14 DOI:10.1016/j.oceram.2024.100707

Michael W. Mervosh , Sevag Momjian , Javier Mena-Garcia , Clive A. Randall

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引用次数: 0

摘要

传统变阻器依赖于通过掺杂受体和 Bi2O3 相在氧化锌晶间区形成双肖特基势垒。这项研究通过在氧化锌基体的晶界上放置二维 hBN 片，在冷烧结氧化锌复合材料中产生了类似变阻器的行为。在渗流阈值以上，会形成一个阻性氢化硼壁垒网络，阻止电流流过导电性更强的氧化锌。但是，在给定电压下，如果层足够薄，电子就能隧穿氢化硼。在这一狭窄的 hBN 含量范围内，已制造出 α 值高达 9.5 的样品。该复合系统在低电场时表现出肖特基传导，而在高电场时则转为福勒-诺德海姆隧道效应。与之前通过独特的冷烧结工艺（CSP）制造变阻器材料的尝试相比，这种微结构设计能够显示出更大的非线性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Using percolation to design ZnO composites with hBN modified grain boundaries to obtain varistor-like behavior

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Using percolation to design ZnO composites with hBN modified grain boundaries to obtain varistor-like behavior

Conventional varistors rely on the formation of a Double Schottky Barrier within the intergranular region of ZnO via acceptor doping and a Bi₂O₃ phase. This work has been able to yield varistor-like behavior via cold sintered ZnO composites by placing 2D hBN flakes on the grain boundaries within the ZnO matrix. Above the percolation threshold, a network of resistive hBN barriers is formed which prevents current from flowing through the more conductive ZnO. However, at a given voltage, electrons can tunnel through the hBN if the layers are kept thin enough. Within this narrow band of hBN content, samples have been fabricated with α values as high as 9.5. The composite system demonstrated Schottky conduction at low fields before switching to Fowler-Nordheim tunneling at high fields. This microstructural design was able to show greater nonlinearity compared to previous attempts at creating varistor materials through the unique cold sintering process (CSP).

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