High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers
Fluorescence excitation enhancement by plasmonic nanostructures such as gold nanohole arrays has been a hot topic in biosensing and bioimaging in recent years. However, the high throughput and high yield fabrication of precisely designed metal nanostructures for optimized fluorescence excitation rem...
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2016
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sg-ntu-dr.10356-838432020-03-07T12:47:13Z High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers Wong, Ten It Han, Shan Wu, Lin Wang, Yi Deng, Jie Tan, Christina Yuan Ling Bai, Ping Loke, Yee Chong Yang, Xin Da Tse, Man Siu Ng, Sum Huan Zhou, Xiaodong School of Electrical and Electronic Engineering A*STAR SIMTech Centre for Biomimetic Sensor Science gold nanoparticle fluorescence analysis Fluorescence excitation enhancement by plasmonic nanostructures such as gold nanohole arrays has been a hot topic in biosensing and bioimaging in recent years. However, the high throughput and high yield fabrication of precisely designed metal nanostructures for optimized fluorescence excitation remains a challenge. Our work is the first report combining nanopattern nickel mould fabrication and UV imprinting for gold nanostructure mass fabrication in high yield. We report our successful gold nanohole array mass fabrication on a 4′′ glass wafer, by first fabricating a high fidelity nickel mould, then using the mould for UV nanoimprinting on a polymer coated on the glass, evaporating the gold film on the glass wafer, and lifting off the polymer to obtain a gold nanohole array on the glass. Our optimized process for wafer fabrication can achieve almost 100% yield from nanoimprinting to gold lift-off, while the fabricated nickel mould has >70% defect-free area with the rest having a few scattered defects. In our work, the size and pitch of the gold nanohole array are designed to enhance the fluorescent dye Alexa 647. When the fabricated gold nanohole array is used for prostate specific antigen (PSA) detection by establishing a sandwiched fluorescence assay on the gold surface, a detection limit of 100 pg ml−1 is achieved, while with a same thickness of gold film, only 1 ng ml−1 is detected. ASTAR (Agency for Sci., Tech. and Research, S’pore) 2016-09-23T05:20:33Z 2019-12-06T15:33:06Z 2016-09-23T05:20:33Z 2019-12-06T15:33:06Z 2013 Journal Article Wong, T. I., Han, S., Wu, L., Wang, Y., Deng, J., Tan, C. Y. L., et al. (2013). High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers. Lab on a Chip, 13(12), 2405-2413. 1473-0197 https://hdl.handle.net/10356/83843 http://hdl.handle.net/10220/41482 10.1039/c3lc41396a en Lab on a Chip © 2013 The Royal Society of Chemistry. |
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gold nanoparticle fluorescence analysis |
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gold nanoparticle fluorescence analysis Wong, Ten It Han, Shan Wu, Lin Wang, Yi Deng, Jie Tan, Christina Yuan Ling Bai, Ping Loke, Yee Chong Yang, Xin Da Tse, Man Siu Ng, Sum Huan Zhou, Xiaodong High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| description |
Fluorescence excitation enhancement by plasmonic nanostructures such as gold nanohole arrays has been a hot topic in biosensing and bioimaging in recent years. However, the high throughput and high yield fabrication of precisely designed metal nanostructures for optimized fluorescence excitation remains a challenge. Our work is the first report combining nanopattern nickel mould fabrication and UV imprinting for gold nanostructure mass fabrication in high yield. We report our successful gold nanohole array mass fabrication on a 4′′ glass wafer, by first fabricating a high fidelity nickel mould, then using the mould for UV nanoimprinting on a polymer coated on the glass, evaporating the gold film on the glass wafer, and lifting off the polymer to obtain a gold nanohole array on the glass. Our optimized process for wafer fabrication can achieve almost 100% yield from nanoimprinting to gold lift-off, while the fabricated nickel mould has >70% defect-free area with the rest having a few scattered defects. In our work, the size and pitch of the gold nanohole array are designed to enhance the fluorescent dye Alexa 647. When the fabricated gold nanohole array is used for prostate specific antigen (PSA) detection by establishing a sandwiched fluorescence assay on the gold surface, a detection limit of 100 pg ml−1 is achieved, while with a same thickness of gold film, only 1 ng ml−1 is detected. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wong, Ten It Han, Shan Wu, Lin Wang, Yi Deng, Jie Tan, Christina Yuan Ling Bai, Ping Loke, Yee Chong Yang, Xin Da Tse, Man Siu Ng, Sum Huan Zhou, Xiaodong |
| format |
Article |
| author |
Wong, Ten It Han, Shan Wu, Lin Wang, Yi Deng, Jie Tan, Christina Yuan Ling Bai, Ping Loke, Yee Chong Yang, Xin Da Tse, Man Siu Ng, Sum Huan Zhou, Xiaodong |
| author_sort |
Wong, Ten It |
| title |
High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| title_short |
High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| title_full |
High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| title_fullStr |
High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| title_full_unstemmed |
High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| title_sort |
high throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/83843 http://hdl.handle.net/10220/41482 |
| _version_ |
1681045588212187136 |