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Nanopatterning: A 3D Self‐Shaping Strategy for Nanoresolution Multicomponent Architectures (Adv. Mater. 3/2018)
Advanced Materials ( IF 29.4 ) Pub Date : 2018-01-15 , DOI: 10.1002/adma.201870014 Meng Su 1, 2 , Zhandong Huang 1, 2 , Yifan Li 1, 2 , Xin Qian 1, 2 , Zheng Li 1, 2 , Xiaotian Hu 1, 2 , Qi Pan 1, 2 , Fengyu Li 1 , Lihong Li 1 , Yanlin Song 1
Advanced Materials ( IF 29.4 ) Pub Date : 2018-01-15 , DOI: 10.1002/adma.201870014 Meng Su 1, 2 , Zhandong Huang 1, 2 , Yifan Li 1, 2 , Xin Qian 1, 2 , Zheng Li 1, 2 , Xiaotian Hu 1, 2 , Qi Pan 1, 2 , Fengyu Li 1 , Lihong Li 1 , Yanlin Song 1
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A 3D self‐shaping strategy is developed by Fengyu Li, Yanlin Song, and co‐workers in article number 1703963 to fabricate nanoresolution multicomponent 3D architectures. The as‐prepared 3D circuits assembled by silver nanoparticles carry a current of 208–448 μA at an impressed voltage of 0.01 V, while the 3D architectures achieved by two different quantum dots show non‐interfering optical properties with feature resolution below 3 μm. The new strategy for fabrication of micro–nano geometric patterns without a modeling program will promote the development of functional 3D devices.
中文翻译:
纳米图案化:用于纳米分辨率多组件架构的3D自整形策略(Adv。Mater.3 / 2018)
李凤玉,宋燕林及其同事在编号1703963中开发了一种3D自整形策略,以制造纳米分辨率的多组件3D架构。由银纳米颗粒组装而成的3D电路在0.01 V的施加电压下可承载208–448μA的电流,而由两个不同量子点实现的3D架构则具有无干扰的光学特性,且特征分辨率低于3μm。没有建模程序的制造微纳米几何图案的新策略将促进功能性3D设备的发展。
更新日期:2018-01-15
中文翻译:
纳米图案化:用于纳米分辨率多组件架构的3D自整形策略(Adv。Mater.3 / 2018)
李凤玉,宋燕林及其同事在编号1703963中开发了一种3D自整形策略,以制造纳米分辨率的多组件3D架构。由银纳米颗粒组装而成的3D电路在0.01 V的施加电压下可承载208–448μA的电流,而由两个不同量子点实现的3D架构则具有无干扰的光学特性,且特征分辨率低于3μm。没有建模程序的制造微纳米几何图案的新策略将促进功能性3D设备的发展。
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