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Hollow-core photonic crystal fibre (HC-PCF) offers several advantages for photochemical applications. These include minimal sample consumption (4 nL/cm in the core), very long interaction lengths, almost full overlap between the sample and the light [1-4]. A further advantage for photochemistry is that the easily accessible hollow channels allow surface-functionalization of the inner walls. Here we...
Hollow-core photonic crystal fiber offers new possibilities for sensing and photochemistry applications. In this paper we review our recent achievements on liquid-phase photochemical microreactors using photonic crystal fibers and discuss our future prospects in this field.
Hollow-core photonic crystal fiber (HC-PCF) offers several advantages for chemical analysis, for example, long optical pathlengths, sub-µL sample volumes, close to 100% overlap between light and sample, and more compact systems for sensing [1–2] and photochemistry [3–4]. Here we compare the performance of a conventional cuvette-based UV-VIS system for monitoring of catalytic reactions with a system...
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