Aerogel-Lined Capillaries as Liquid-Core Waveguides for Raman Signal Gain of Aqueous Samples: Advanced Manufacturing and Performance Characterization DOI Creative Commons
Felix Spiske, Lara Sophie Jakob, M. Lippold

et al.

Sensors, Journal Year: 2024, Volume and Issue: 24(18), P. 5979 - 5979

Published: Sept. 14, 2024

An advanced process for the manufacturing of aerogel-lined capillaries is presented; these are applicable as liquid-core waveguides gaining Raman signal aqueous samples. With respect to spin-coating we have used so far capillaries, here-presented it enables (i) lining longer (ii) adjustment lining-thickness via velocity, and (iii) reproducible generation crack-free linings. The key parameters their effect on fabrication with optimal gain reported related thickness topography aerogel linings by support scanning electron microscopy.

Language: Английский

Aerogel-Lined Capillaries as Liquid-Core Waveguides for Raman Signal Gain of Aqueous Samples: Advanced Manufacturing and Performance Characterization DOI Creative Commons
Felix Spiske, Lara Sophie Jakob, M. Lippold

et al.

Sensors, Journal Year: 2024, Volume and Issue: 24(18), P. 5979 - 5979

Published: Sept. 14, 2024

An advanced process for the manufacturing of aerogel-lined capillaries is presented; these are applicable as liquid-core waveguides gaining Raman signal aqueous samples. With respect to spin-coating we have used so far capillaries, here-presented it enables (i) lining longer (ii) adjustment lining-thickness via velocity, and (iii) reproducible generation crack-free linings. The key parameters their effect on fabrication with optimal gain reported related thickness topography aerogel linings by support scanning electron microscopy.

Language: Английский

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