Plasmonic hotspots on laser-treated AgOx thin film: A novel nanofabrication technique for plasmonic substrate

Ming Lun Tseng; Yao Wei Huang; Min Kai Hsiao; Hsin Wei Huang; Hao Ming Chen; Cheng Hung Chu; Nien Nan Chu; You Je He; Chia Min Chang; Yu Lim Chen; Wei Chih Lin; Ru Shi Liu; Ding Wei Huang; Hai Pang Chiang; Greg Sun; Din Ping Tsai

Plasmonic hotspots on laser-treated AgO^x thin film: A novel nanofabrication technique for plasmonic substrate

Ming Lun Tseng, Yao Wei Huang, Min Kai Hsiao, Hsin Wei Huang, Hao Ming Chen, Cheng Hung Chu, Nien Nan Chu, You Je He, Chia Min Chang, Yu Lim Chen, Wei Chih Lin, Ru Shi Liu, Ding Wei Huang, Hai Pang Chiang, Greg Sun, Din Ping Tsai

研究成果: 書貢獻/報告類型 › 會議論文篇章

摘要

Using a femtosecond laser, the laser-direct-writing technique has been transformed into a highly efficient method that can rapidly process glass substrate into structures of Ag nanoparticles that provide plasmonic enhancement. The processed AgOx thin films showed enhanced optical absorption over a broad spectral range. The plasmonic hotspots on the treated area are also probed with dyed polymer beads drifting in the water solution. Multilevel Raman enhancements can also be achieved by varying the incident femtosecond laser power. Moreover, the processing rate is much faster than other reported laser-direct-writing techniques with either continuous or nano-second lasers. This proposed technique has great potential for the fabrication of plasmon-active substrate with high throughput and efficiency.

原文	英語
主出版物標題	Frontiers in Optics, FIO 2012
出版狀態	已發佈 - 2012
對外發佈	是
事件	Frontiers in Optics, FIO 2012 - Rochester, NY, 美国持續時間: 2012 10月 14 → 2012 10月 18

出版系列

名字	Frontiers in Optics, FIO 2012

會議

會議	Frontiers in Optics, FIO 2012
國家/地區	美国
城市	Rochester, NY
期間	2012/10/14 → 2012/10/18

ASJC Scopus subject areas

原子與分子物理與光學

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引用此

Tseng, M. L., Huang, Y. W., Hsiao, M. K., Huang, H. W., Chen, H. M., Chu, C. H., Chu, N. N., He, Y. J., Chang, C. M., Chen, Y. L., Lin, W. C., Liu, R. S., Huang, D. W., Chiang, H. P., Sun, G., & Tsai, D. P. (2012). Plasmonic hotspots on laser-treated AgO^x thin film: A novel nanofabrication technique for plasmonic substrate. 於 Frontiers in Optics, FIO 2012 (Frontiers in Optics, FIO 2012).

Tseng, ML, Huang, YW, Hsiao, MK, Huang, HW, Chen, HM, Chu, CH, Chu, NN, He, YJ, Chang, CM, Chen, YL, Lin, WC, Liu, RS, Huang, DW, Chiang, HP, Sun, G & Tsai, DP 2012, Plasmonic hotspots on laser-treated AgO^x thin film: A novel nanofabrication technique for plasmonic substrate. 於 Frontiers in Optics, FIO 2012. Frontiers in Optics, FIO 2012, Frontiers in Optics, FIO 2012, Rochester, NY, 美国, 2012/10/14.

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title = "Plasmonic hotspots on laser-treated AgOx thin film: A novel nanofabrication technique for plasmonic substrate",

abstract = "Using a femtosecond laser, the laser-direct-writing technique has been transformed into a highly efficient method that can rapidly process glass substrate into structures of Ag nanoparticles that provide plasmonic enhancement. The processed AgOx thin films showed enhanced optical absorption over a broad spectral range. The plasmonic hotspots on the treated area are also probed with dyed polymer beads drifting in the water solution. Multilevel Raman enhancements can also be achieved by varying the incident femtosecond laser power. Moreover, the processing rate is much faster than other reported laser-direct-writing techniques with either continuous or nano-second lasers. This proposed technique has great potential for the fabrication of plasmon-active substrate with high throughput and efficiency.",

author = "Tseng, {Ming Lun} and Huang, {Yao Wei} and Hsiao, {Min Kai} and Huang, {Hsin Wei} and Chen, {Hao Ming} and Chu, {Cheng Hung} and Chu, {Nien Nan} and He, {You Je} and Chang, {Chia Min} and Chen, {Yu Lim} and Lin, {Wei Chih} and Liu, {Ru Shi} and Huang, {Ding Wei} and Chiang, {Hai Pang} and Greg Sun and Tsai, {Din Ping}",

year = "2012",

language = "English",

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AU - Tseng, Ming Lun

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AU - Huang, Hsin Wei

AU - Chen, Hao Ming

AU - Chu, Cheng Hung

AU - Chu, Nien Nan

AU - He, You Je

AU - Chang, Chia Min

AU - Chen, Yu Lim

AU - Lin, Wei Chih

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AB - Using a femtosecond laser, the laser-direct-writing technique has been transformed into a highly efficient method that can rapidly process glass substrate into structures of Ag nanoparticles that provide plasmonic enhancement. The processed AgOx thin films showed enhanced optical absorption over a broad spectral range. The plasmonic hotspots on the treated area are also probed with dyed polymer beads drifting in the water solution. Multilevel Raman enhancements can also be achieved by varying the incident femtosecond laser power. Moreover, the processing rate is much faster than other reported laser-direct-writing techniques with either continuous or nano-second lasers. This proposed technique has great potential for the fabrication of plasmon-active substrate with high throughput and efficiency.

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Y2 - 14 October 2012 through 18 October 2012

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Plasmonic hotspots on laser-treated AgOx thin film: A novel nanofabrication technique for plasmonic substrate

摘要

出版系列

會議

ASJC Scopus subject areas

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Plasmonic hotspots on laser-treated AgO^x thin film: A novel nanofabrication technique for plasmonic substrate