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Concomitant Channel Cracking and Interfacial Delamination in Polymer/Oxide Nano Hybrid Permeation Barriers in Flexible Electronics

机译：柔性电子中聚合物/氧化物纳米杂交渗透屏障中的伴随通道裂纹和界面分层

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Polymer/oxide nano hybrid multilayer permeation barriers are emerging as a promising solution to the stringent barrier requirement of flexible electronics. Yet the mechanical failure of the multilayer permeation barriers could be fatal to their barrier performance. We study two co-evolving failure mechanisms of the multilayer permeation barriers under tension, namely, the cracking of the inorganic oxide layer and the delamination along the oxide-organic interface, using computational modeling. An effective driving force for the oxide layer cracking is determined, which decreases as the oxide-organic interfacial adhesion increases.

机译：聚合物/氧化物纳米杂交多层渗透屏障被出现为柔性电子的严格屏障要求的有希望的解决方案。然而，多层渗透屏障的机械故障可能对其屏障性能致命。我们研究了张力下多层渗透屏障的两种共同不断变化的故障机制，即使用计算建模的无机氧化物层的裂缝和沿氧化物 - 有机界面的分层。确定氧化物层裂化的有效驱动力，随着氧化物 - 有机界面粘附增加而降低。

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《MRS Symposium》|2011年||共10页
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Zheng Jia; Matthew B. Tucker; Teng Li;
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Concomitant Channel Cracking and Interfacial Delamination in Polymer/Oxide Nano Hybrid Permeation Barriers in Flexible Electronics

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