Artículo
3D-nanoprinted on-chip antiresonant waveguide with hollow core and microgaps for integrated optofluidic spectroscopy
Kim, Jisoo; Bürger, Johannes; Jang, Bumjoon; Zeisberger, Matthias; Gargiulo, Julian
; de Menezes, Leonardo S.; Maier, Stefan A.; Schmidt, Markus A.
; de Menezes, Leonardo S.; Maier, Stefan A.; Schmidt, Markus A.
Fecha de publicación:
01/2023
Editorial:
Optical Society of America
Revista:
Optics Express
ISSN:
1094-4087
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Here, we unlock the properties of the recently introduced on-chip hollow-core microgap waveguide in the context of optofluidics which allows for intense light-water interaction over long lengths with fast response times. The nanoprinted waveguide operates by the antiresonance effect in the visible and near-infrared domain and includes a hollow core with defined gaps every 176 µm. The spectroscopic capabilities are demonstrated by various absorption-related experiments, showing that the Beer-Lambert law can be applied without any modification. In addition to revealing key performance parameters, time-resolved experiments showed a decisive improvement in diffusion times resulting from the lateral access provided by the microgaps. Overall, the microgap waveguide represents a pathway for on-chip spectroscopy in aqueous environments.
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Excepto donde se diga explícitamente, este item se publica bajo la siguiente descripción:
Creative Commons Attribution-NonCommercial-ShareAlike 2.5 Unported (CC BY-NC-SA 2.5)
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Articulos de SEDE CENTRAL
Citación
Kim, Jisoo; Bürger, Johannes; Jang, Bumjoon; Zeisberger, Matthias; Gargiulo, Julian; et al.; 3D-nanoprinted on-chip antiresonant waveguide with hollow core and microgaps for integrated optofluidic spectroscopy; Optical Society of America; Optics Express; 31; 2; 1-2023; 2833-2845
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