1) nano-metal array
纳米金属列阵
1.
An anchor template with micro-frame array was fabricated through photolithography, then a single layer of separate polystyrene nanospheres was aligned in the micro-frame; After a single layer of metal was deposited on the top of the assembled structures and the lift-off was taken, the nano-metal array with the hexagon shape was achieved.
提出利用光刻定位自组装填充的方法制作纳米金属列阵。
2) Metal nano-wire array
金属纳米线阵列
3) Cu nano-hole array
金属铜纳米孔洞阵列膜
4) gold-nanoparticle array
纳米金阵列
1.
Preparation of the gold-nanoparticle array (GNA) directly on indium tin oxide (ITO) surface by electrodeposition method is described.
系统考察各因素,如:镀液温度、循环伏安的扫描圈数、电位范围、KAu(CN)2浓度及添加剂等对纳米金阵列制备的影响,确定制备条件,分别制备了粒径为20nm左右、30-40nm、50-60nm的三种典型纳米金阵列;并通过对扫描圈数的控制,制备了粒径不变仅使密度变化的系列纳米金阵列。
6) Gold nanowire arrays
金纳米线阵列
1.
Gold nanowire arrays and gold nanobrushes were prepared by electro-deposition of gold into alumina template coated with gold film, then chemically etching alumina directly or rubbing gold film and chemically etching alumina.
金纳米线阵列作为表面增强拉曼散射的基底能够产生有效的增强效应,金纳米线阵列通过金线之间的电场耦合产生增强的拉曼信号。
补充资料:列阵
1.布列阵势。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条