Electrophoretic Deposition of Spherical and Rod-Shaped Nanocrystals into Close Packed Superlattices

机译：球形和棒状纳米晶体的电泳沉积成密堆积超晶格

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Ordered nanocrystal assemblies are an exciting new class of materials where electronic, optical or magnetic properties can be dictated by tuning the position and ligand environment of each nanocrystal structural unit. Device integration in both nanoelectronics and nanophotonics relies on the ability to locate these ensembles with nanoscale accuracy exactly where they are needed. In this paper we overview our recent work in the area of electrophoretic deposition of charged nanocrystals from toluene.(1,2) The systems discussed are twofold 1: gold nanocrystals (8 nm) which are positively charged and assembled from a toluene solution with unprecedented selectivity into lithographic channels and 2: CdS nanorods (100 nm × 8 nm) which are negatively charged and assembled into perpendicularly oriented nanorod superlattices over centimeter squared areas suitable for nanorod solar-cells.

机译：有序的纳米晶体组件是令人兴奋的新型材料，其中可以通过调整每个纳米晶体结构单元的位置和配体环境来决定其电子，光学或磁性性质。纳米电子学和纳米光子学中的设备集成都依赖于以纳米级精度将这些组件精确定位在所需位置的能力。在本文中，我们概述了我们最近从甲苯电泳沉积带电纳米晶体方面的工作。（1,2）讨论的系统是双重的1：金纳米晶体（8 nm）带正电并由甲苯溶液组装而成，具有前所未有的选择性进入光刻通道和2：CdS纳米棒（100 nm×8 nm），它们带负电，并在适合纳米棒太阳能电池的平方厘米面积上组装成垂直取向的纳米棒超晶格。

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《State-of-the-art program on compound semiconductors 50 (SOTAPOCS 50)-and-processes at the semiconductor solution interface 3》|2009年|209-219|共11页
会议地点 San Francisco CA(US);San Francisco CA(US);San Francisco CA(US)
作者
S. Ahmed; C. A. Barrett; C. OSullivan; A. Sanyal; H. Geaney; A. Singh; R.D.Gunning; K. M. Ryan;
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Department of Chemical and Environmental Sciences and Materials Surface Science Institute, University of Limerick, Ireland;

Department of Chemical and Environmental Sciences and Materials Surface Science Institute, University of Limerick, Ireland;

Department of Chemical and Environmental Sciences and Materials Surface Science Institute, University of Limerick, Ireland;

Department of Chemical and Environmental Sciences and Materials Surface Science Institute, University of Limerick, Ireland;

Department of Chemical and Environmental Sciences and Materials Surface Science Institute, University of Limerick, Ireland;

Department of Chemical and Environmental Sciences and Materials Surface Science Institute, University of Limerick, Ireland;

Department of Chemical and Environmental Sciences;

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机译：γ-Fe_2O_3和Au纳米晶CdSe纳米晶的纳米晶混合膜电泳沉积中的添加，抑制和抑制
2. Selective stabilization of blue phase liquid crystals using spherical and rod-shaped colloidal nanocrystals [J] . Raj Kumar Khan, Pratibha Ramarao Journal of Applied Physics . 2021,第2期

机译：使用球形和棒状胶体纳米晶体的蓝相液晶选择性稳定
3. Self-Assembly of Spherical or Rod-Shaped Magnetic Nanocrystals onto Curved Substrates Governed by the Radius of Curvature [J] . Testa-Anta Martin, Correa-Duarte Miguel A., Salgueirino Veronica Particle & Particle Systems Characterization: Measurement and Description of Particle Properties and Behavior in Powders and Other Disperse Systems . 2018,第6期

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4. Electrophoretic Deposition of Spherical and Rod-Shaped Nanocrystals into Close Packed Superlattices [C] . S. Ahmed, C. A. Barrett, C. OSullivan, State-of-the-Art Symposium on Compound Semiconductor . 2009

机译：球形和棒状纳米晶体的电泳沉积到封闭式超晶格中
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机译：纳米晶铜硫族化物薄膜的低压电泳沉积
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Electrophoretic Deposition of Spherical and Rod-Shaped Nanocrystals into Close Packed Superlattices

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