Abstract
In this study, we developed a new type of microphotoreactor based on an optofluidic waveguide with aqueous liquid core fabricated inside a nanoporous aerogel. To this end, we synthesized a hydrophobic silica aerogel monolith with a density of 0.22 g cm−3 and a low refractive index of 1.06 that—from the optical point of view—effectively behaves like solid air. Subsequently, we drilled an L-shaped channel within the monolith that confined both the aqueous core liquid and the guided light, the latter property arising due to total internal reflection of light from the liquid–aerogel interface. We characterized the efficiency of light guiding in liquid-filled channel and—using the light delivered by waveguiding—we carried out photochemical reactions in the channel filled with aqueous solutions of methylene blue dye. We demonstrated that methylene blue could be efficiently degraded in the optofluidic photoreactor, with conversion increasing with increasing power of the incident light. The presented optofluidic microphotoreactor represents a versatile platform employing light guiding concept of conventional optical fibres for performing photochemical reactions.
Highlights
Optofluidics is an emerging research field that combines optics and photonics with microfluidics in the same platform and& 2018 The Authors
Aged silica aerogel sample with a density higher than the silica aerogel prepared using the conventional two-step sol-gel method without any additional ageing is still suitable for total internal reflection (TIR)-based optofluidic waveguides without the use of any additional optical coatings of the channel inner walls
We have demonstrated a novel type of microphotoreactor with integrated optofluidic waveguide that is formed by a liquid-filled channel fabricated in a monolithic aerogel block The unique optical properties of aerogels—their low refractive index—allow them to be used as the cladding material of TIR-based optofluidic waveguides with aqueous liquid cores that do not require any additional coatings
Summary
Optofluidics is an emerging research field that combines optics and photonics with microfluidics in the same platform and. Exploits the synergy between the unique features of both disciplines for a wide range of applications 2 including biological sensing [1,2], chemical analysis [1], imaging [3,4,5], detection [2,6,7,8] and energy conversion [9,10,11,12,13,14]. Optofluidics allows for simultaneous delivery and control of light and fluids with microscopic precision. Since the light and the fluid share the same space within an optofluidic system, photons can be efficiently transferred to the fluid. Adjustment of optical properties of the fluid directly affects the photon propagation path
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