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All Outputs (3)

Development of a microfluidic device with a screen printed electrode for studies on phase II metabolism (2015)
Thesis
Vasiliadou, R. (2015). Development of a microfluidic device with a screen printed electrode for studies on phase II metabolism. (Thesis). University of Hull. Retrieved from https://hull-repository.worktribe.com/output/4222259

Simulating human metabolism by electrochemistry (EC) and mass spectrometry (MS) provides an alternative approach to the existing in vitro and in vivo methodologies. Herein, screen printed electrodes (SPEs) were investigated as potent electrochemical... Read More about Development of a microfluidic device with a screen printed electrode for studies on phase II metabolism.

Development towards a point-of-care system to monitor pregnancy and fertility biomarkers (2015)
Thesis
Wright, K. J. (2015). Development towards a point-of-care system to monitor pregnancy and fertility biomarkers. (Thesis). University of Hull. Retrieved from https://hull-repository.worktribe.com/output/4217893

The aim of this thesis was to develop a point of care (POC) device that could monitor progesterone and oestriol in saliva. These hormones have a key role to play in both female fertility and pregnancy. Understanding the concentration of progesterone... Read More about Development towards a point-of-care system to monitor pregnancy and fertility biomarkers.

Cellulose/titanium dioxide nanocomposites and silicon diimide gel as a stationery phase for chromatography (2015)
Thesis
Sajedin, S. M. (2015). Cellulose/titanium dioxide nanocomposites and silicon diimide gel as a stationery phase for chromatography. (Thesis). University of Hull. Retrieved from https://hull-repository.worktribe.com/output/4217198

There were two main aims of this thesis, both of which involved the synthesis, often using environmentally friendly (green) methods involving water as the solvent and reagent, and the analysis and determination of the physical properties of novel ino... Read More about Cellulose/titanium dioxide nanocomposites and silicon diimide gel as a stationery phase for chromatography.