Replication of nano/micro-scale features using bulk metallic glass mold prepared by femtosecond laser and imprint processes

Y. C. Chen; J. P. Chu; J. S. C. Jang; C. W. Hsieh; Y. Yang; C. L. Li; Y. M. Chen; J. Y. Jeng

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Replication of nano/micro-scale features using bulk metallic glass mold prepared by femtosecond laser and imprint processes

机译：使用飞秒激光和压印工艺制备的块状金属玻璃模具复制纳米/微米级特征

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This study describes the replication of nano/micro-scale features using a Pd_(40)Ni_(40)P_(20) bulk metallic glass (BMG) mold prepared using a femtosecond laser and nanoimprinting process. The use of the beam shaper feature of the femtosecond laser enabled the rapid fabrication of periodic nanostripes over an area of ～5 × 4 mm~2 on the BMG mold following a single pulse of irradiation. The ablation pitch of the nanostructure irradiated with 100 mW of femtosecond laser power was determined to be 175.8 nm. The imprinting results demonstrate the applicability of Pd-based BMG in the replication of mold features ranging from 100 μm to 90 nm. Additionally, Pd-based BMG can itself be used as a mold to transfer features onto Au-based BMG and polydimethylsiloxane, where the results could be used to ascertain the workability of BMG for molding in a nano/micro-imprint process.

机译：这项研究描述了使用飞秒激光和纳米压印工艺制备的Pd_（40）Ni_（40）P_（20）大块金属玻璃（BMG）模具的纳米/微米级特征复制。飞秒激光的光束整形器功能的使用，使得在单次照射脉冲后，在BMG模具上能够在约5×4 mm〜2的面积上快速制造出周期性的纳米带。 100毫瓦飞秒激光功率照射的纳米结构的烧蚀间距被确定为175.8nm。压印结果证明了基于Pd的BMG在复制100μm至90 nm的模具特征中的适用性。此外，基于Pd的BMG本身可以用作将特征转移到基于Au的BMG和聚二甲基硅氧烷上的模具，其结果可用于确定BMG在纳米/微压印工艺中成型的可加工性。

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《Journal of Micromechanics and Microengineering》 |2013年第3期|共8页
作者
Y. C. Chen; J. P. Chu; J. S. C. Jang; C. W. Hsieh; Y. Yang; C. L. Li; Y. M. Chen; J. Y. Jeng;
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1. Replication of nano/micro-scale features using bulk metallic glass mold prepared by femtosecond laser and imprint processes [J] . Y. C. Chen, J. P. Chu, J. S. C. Jang, Journal of Micromechanics and Microengineering . 2013,第3期

机译：使用飞秒激光和压印工艺制备的块状金属玻璃模具复制纳米/微米级特征
2. Replication of microano-scale features by micro injection molding with a bulk metallic glass mold insert [J] . N. Zhang, J. S. Chu, C. J. Byrne, Journal of Micromechanics and Microengineering . 2012,第6期

机译：通过使用大块金属玻璃模具插件进行微注射成型来复制微/纳米级特征
3. Nanoimprinting Sub-100 nnn Features in a Photovoltaic Nanocomposite using Durable Bulk Metallic Glass Molds [J] . Singer Jonathan P., Gopinadhan Manesh, Shao Zhen, ACS applied materials & interfaces . 2015,第6期

机译：使用耐用的块状金属玻璃模具的光伏纳米复合材料中的纳米压印Sub-100 nnn功能
4. Validation of a New Process Chain for Producing Bulk Metallic Glass Replication Masters with Micro and Nano-scale Features [C] . Pierre C. Vella, Stefan S. Dimov, Ben R. Whiteside, International Conference on Multi-Material Micro Manufacture . 2013

机译：用微型和纳米尺度特征验证生产散装金属玻璃复制主体的新工艺链
5. Synthesis and characterization of bulk metallic glasses prepared by laser direct deposition. [D] . Ye, Xiaoyang. 2014

机译：激光直接沉积制备的块状金属玻璃的合成与表征。
6. Anomalous shear band characteristics and extra-deep shock-affected zone in Zr-based bulk metallic glass treated with nanosecond laser peening [O] . Yanpeng Wei, Guangyue Xu, Kun Zhang, -1

机译：纳秒激光喷丸处理的Zr基块状金属玻璃的剪切带异常和超深影响区
7. A new process chain for producing bulk metallic glass replication masters with micro- and nano-scale features [O] . Vella P.C., Dimov S.S., Brousseau E., 2014

机译：生产具有微米和纳米级特征的大块金属玻璃复制原版的新工艺链
8. Microfabrication with femtosecond laser processing : (A) laser ablation of ferrous alloys, (B) direct-write embedded optical waveguides and integrated optics in bulk glasses. [R] . 2004

机译：采用飞秒激光加工的微细加工：（a）铁合金的激光烧蚀，（B）直接写入嵌入式光波导和大块玻璃中的集成光学器件。

Replication of nano/micro-scale features using bulk metallic glass mold prepared by femtosecond laser and imprint processes

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