Flexible Electronics: Ultra‐Robust Flexible Electronics by Laser‐Driven Polymer‐Nanomaterials Integration (Adv. Funct. Mater. 17/2021),Advanced Functional Materials

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Flexible Electronics: Ultra‐Robust Flexible Electronics by Laser‐Driven Polymer‐Nanomaterials Integration (Adv. Funct. Mater. 17/2021)
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2021-04-22 , DOI: 10.1002/adfm.202170114
Raul D. Rodriguez ₁ , Sergey Shchadenko ₁ , Gennadiy Murastov ₁ , Anna Lipovka ₁ , Maxim Fatkullin ₁ , Ilia Petrov ₁ , Tuan‐Hoang Tran ₁ , Alimzhan Khalelov ₁ , Muhammad Saqib ₁ , Nelson E. Villa ₁ , Vladimir Bogoslovskiy ₁ , Yan Wang ₂ , Chang‐Gang Hu ₂ , Alexey Zinovyev ₁ , Wenbo Sheng ₃ , Jin‐Ju Chen ₂ , Ihsan Amin ₄ , Evgeniya Sheremet ₁

Affiliation

In article number 2008818, Raul D. Rodriguez and co‐workers show a scalable and environmentally friendly way to fabricate flexible electronics. Their method is based on laser processing to integrate metal nanoparticles into polymers with the simultaneous generation of a 3D graphene network. The composite structures are electrically conductive and with remarkable mechanical resilience due to the linkage among aluminum phases, graphene, and the polymer substrate.

中文翻译：

柔性电子：激光驱动的聚合物-纳米材料集成的超结实柔性电子（高级功能材料17/2021）

在编号2008818的文章中，劳尔·D·罗德里格斯（Raul D. Rodriguez）及其同事展示了一种制造柔性电子产品的可扩展且环保的方式。他们的方法基于激光加工，可将金属纳米颗粒整合到聚合物中，同时生成3D石墨烯网络。由于铝相，石墨烯和聚合物基材之间的键合，复合结构具有导电性并具有显着的机械回弹力。

更新日期：2021-04-22

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