GOLD MEMBRANES WITH LARGE ARRAYS OF SUB-μm HOLES FABRICATED BY WAFER-SCALE NANOSPHERE LITHOGRAPHY

机译：用晶圆级纳米光刻制造的大亚μm孔阵列的金膜

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Gold membranes with large arrays of sub-μm holes were fabricated and optically characterized. The fabrication is a combination of a bottom-up, self-assembly based patterning technique, Nanosphere Lithography (NSL), and standard microfabrication. This was achieved by 1) up-scaling of the deposition of close-packed bead monolayers to 4" wafer substrates, 2) controlled bead size reduction, 3) etching of high aspect-ratio Si pillar arrays, 4) using the pillar arrays as a lift-off template, and 5) releasing the membranes by dry-etching. In this way, millimeter-size, 200 nm thick gold membranes with dense, short-range ordered hole arrays were fabricated. The array periodicity was either 428 nm or 535 nm, depending on the initial bead size. The hole diameter was tuned in the range of 150 nm to 250 nm. Optical transmission spectroscopy showed surface plasmon mediated extraordinary optical transmission (EOT) with an enhancement factor greater than two.

机译：制造具有大亚微米孔阵列的金膜，并进行光学表征。制造是基于自动组装基于自组装的图案化技术，纳米光刻（NSL）和标准微制造的组合。通过1）通过柱子阵列沉积的封闭珠子单层沉积到4“晶片基板，2）控制的珠尺寸减小，3）使用柱阵列的高纵横比Si柱阵列的蚀刻珠尺寸减小。剥离模板和5）通过干蚀刻释放膜。以这种方式，制造毫米尺寸，200nm厚的金膜，具有致密，短距离排序孔阵列。阵列周期为428 nm或535 nm，取决于初始珠粒尺寸。孔直径在150nm至250nm的范围内调谐。光传输光谱显示表面等离子体介导的非凡光传输（EOT），增强因子大于两个。

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《International Solid-State Sensors, Actuators and Microsystems Conference》|2011年||共4页
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M. J. K. Klein; R. Eckert; M. Guillaumee; L. A. Dunbar; H. Heinzelmann; J. Brugger; R. Pugin;
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中图分类 TM1-53;
关键词
Nanosphere Lithography; Gold membranes; Hole arrays; Sub-wavelength holes; Surface plasmons; Extraordinary optical transmission;

机译：纳米圈光刻;金膜;孔阵列;亚波长孔;表面等离子体;非凡的光传输;

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1. SiN membranes with submicrometer hole arrays patterned by wafer-scale nanosphere lithography [J] . Mona J. K. Klein, Franck Montagne, Nicolas Blondiaux, Journal of Vacuum Science & Technology . 2011,第2期

机译：通过晶圆级纳米球刻蚀图案化的具有亚微米孔阵列的SiN膜
2. Well-ordered large-area arrays of epitaxial ferroelectric (Bi,La)_4Ti_3O_(12) nanostructures fabricated by gold nanotube-membrane lithography [J] . Sung Kyun Lee, Woo Lee, Marin Alexe, Applied Physics Letters . 2005,第15期

机译：金纳米管-膜光刻技术制备的高序外延铁电（Bi，La）_4Ti_3O_（12）纳米结构的大面积阵列
3. Monolayer Uniformity of the Nanosphere Mask: Two-dimensional ordered gold nanoparticle arrays with nanosphere lithography. [J] . Lin Y., Chen Y., Tseng F., Nanotechnology Magazine, IEEE . 2014,第3期

机译：纳米球掩模的单层均匀性：具有纳米球光刻的二维有序金纳米粒子阵列。
4. Gold membranes with large arrays of sub-μm holes fabricated by wafer-scale Nanosphere Lithography [C] . Klein M. J. K., Eckert R., Guillaumee M., The 16th International Conference on olid-State Sensors, Actuators and Microsystems . 2011

机译：晶圆级纳米球光刻技术制备的亚微米孔大阵列金膜
5. Biosensing based on localized surface plasmon resonance of gold nanostructures fabricated by a novel nanosphere lithography technique . [D] . Fida, Farah. 2008

机译：基于新型纳米球面光刻技术的金纳米结构局部表面等离子体共振的生物传感。
6. Fabricating ordered 2-D nano-structured arrays using nanosphere lithography [O] . Chenlong Zhang, Sandra Cvetanovic, Joshua M. Pearce 2017

机译：使用纳米球光刻技术制造有序的二维纳米结构阵列
7. Localized Surface Plasmon Resonance Biosensing with Large Area of Gold Nanoholes Fabricated by Nanosphere Lithography [O] . Gansheng Xiang, Nan Zhang, Xiaodong Zhou 2010

机译：纳米球平版印刷技术制备的大面积金纳米孔局部表面等离子体共振生物传感
8. Methods for fabricating arrays of holes using interference lithography [R] . Fernandez, A. , Decker, J. Y. , Herman, S. M. , 1997

机译：使用干涉照相术制造孔阵列的方法

GOLD MEMBRANES WITH LARGE ARRAYS OF SUB-μm HOLES FABRICATED BY WAFER-SCALE NANOSPHERE LITHOGRAPHY

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