Maab Al-Hafidh scite author profile

Maab Al-Hafidh

2Publications

1Citation Statement Received

48Citation Statements Given

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University of Glasgow

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Multireflection Polarimetry in Microfluidics

et al. 2019

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The field of microfluidics promises new portable, low-cost sensing systems, as well as the capabilities to measure the physical or chemical properties of precious samples, for which only small volumes are available. However, when using microfluidic channels with millimeter to micron scale dimmensions, together with optical sensing methods, these configurations result in short path lengths over which the signal can be acquired. Whilst polarimetry would greatly benefit from using small volumes, providing important information on the structure of chiral biomarkers in life sciences, the small interrogation volumes associated with the use of minute samples decreases the numbers of molecules in the light path that cause an optical rotation, and so reduces the sensitivity of the technique. Here we show that when an optical beam, passing through a chiral sample, undergoes multiple reflections from suitably aligned and configured external micromirrors, the usual cancelling out of the optical rotation that occurs when the rotated polarized beam is passed back through a solution following reflection at a single mirror can be negated. This enables the chirality of molecular species present in a microfluidic sample to be measured with increased sensitivity. This approach was validated experimentally using solutions of D-(+)-glucose as a model system, by investigating the effect of multiple reflections of a linearly polarized He-Ne laser beam and a 403 nm diode laser beam across the microfluidic channel. It was found that there was a 30 fold enhancement in the limit of detection with as few as 11 reflections through the sample.

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Micromirror Angle Dependence with Etchant Choice on <100> Silicon Via Wet Etching

Al-Hafidh

Wilson

Glidle

et al. 2018

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In creating mirrored silicon structures for microoptics, the smoothness of the surface and etch rate are crucial parameters. We demonstrate a method of creating both 45° and 90° etch-planes from monocrystalline silicon for use as retro-reflective sidewalls in a microfluidic device. The technique uses the same photolithographic pattern orientation, but with two different etchants. Etching on <100> direction in Si(100) with potassium hydroxide (KOH) gives vertical surfaces (where e.g. the high surface tension influences etching of crystallographic silicon planes), whilst tetramethylammonium hydroxide (TMAH) gives 45° sidewalls . We illustrate the use of these fabricated structures by creating arrays of micromirrors that enable an optical beam to be reflected parallel back and forth from 45° and -45° tilted vertical structures. This device has potential uses in optofluidic spectroscopic applications, where there is a need to increase the effective pathlength of a beam through a sample whilst keeping the device as small as possible.

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Maab Al-Hafidh

Multireflection Polarimetry in Microfluidics

Micromirror Angle Dependence with Etchant Choice on <100> Silicon Via Wet Etching

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