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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.
A method for the automatic qualitative discrimination of liquid samples based on their absorption spectrum in the ultraviolet, visible and near-infrared regions is presented. An alternative implementation of conventional spectrum matching methodologies is proposed working towards the improvement of the response time of the discrimination system. The method takes advantage of not making assumptions...
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