For over thirty years, SCI has supported and recognised the excellence of early career people, by aiding their studies in the form of an SCI Scholarship.
Since 1985 around 74 scholarships have been awarded which have not only given the recipients financial assistance, but have enabled them to broaden their network, and strengthen their skills and knowledge. SCI Scholars receive access to publishing and mentoring opportunities and are given a platform to present their work amongst esteemed scientists and industrialists, thus raising their profile within the scientific community.
In the past ten years alone, SCI has generously bequeathed over £115,000 of its charitable funds to SCI Scholars and the scientists of the future.
Upon completing my degree I wanted to pursue a PhD which sits at the interface of two disciplines, synthetic organic chemistry and molecular biology, and the collaborative PhD programme between the University of Strathclyde and GlaxoSmithKline provided me with this opportunity. My project falls within the realm of chemical biology, a rapidly evolving discipline which has the potential to revolutionise our vision of molecular pathways and the complex mechanisms of life.
My research on the design and synthesis of photoactivatable probes to study protein-ligand interactions, aims to develop a new platform of drug discovery. I am designing a photoactivatable fragment library which has the potential to mitigate the limitations of traditional drug discovery, primarily by covering a wider chemical space with compounds of higher ligand efficiency.
Genome Editing with CRISPR-Cas9. Video: McGovern Institute for Brain Research at MIT
This platform could provide an alternative technique to traditional screening, by broadening the chemical space available to discover novel binding ligands, and so leading to higher quality medicines.
For my PhD I am studying surfactant migration on polymeric substrates. Surfactants are commonly used to modify the surface chemistry of many materials including polymers. In the manufacture of non-woven fabrics formed from polyethylene and polypropylene blends, which are used extensively in the personal care industry, non-ionic and cationic surfactants are commonly used to improve surface hydrophilicity via simple coating processes.
This surfactant loss process will be investigated by measuring key physicochemical properties of substrates treated with surfactants under different environmental conditions and as a function of time. The two primary objectives for the project are to confirm, quantify and visualise surfactant distributions on the surface of non-woven fabrics, and to develop a fundamental understanding of the surfactant loss process(es).
Common uses for surfactants include sanitary products and disposable nappies. Image: Shutterstock
The SCI scholarship will afford me great networking opportunities. In addition, it will help fund travel to relevant conferences such as the 8th Pacific Basin Conference on Adsorption Science and Technology to be held in September 2018 in Japan, to which I have been invited to present my work.
I am investigating important zeolite-catalysed reactions including the production of fuels and emission control from diesel exhaust gases. This work is being carried out in collaboration with Prof. Russell Howe and Prof. Andy Beale along with the Catalysis Hub and beam scientists at the Diamond Light Source (B22, UK). The synchrotron at Diamond can generate a bright infrared source that allows us to obtain detailed mechanistic insight and interpret structure activity relationships for the development of improved catalytic materials.
I’m now entering the second year of my PhD and I am really enjoying it so far. I have gained a great deal of practical experience and have recently attended the 6th International Congress on Operando Spectroscopy in Spain to learn more about this subject. Earlier this year, I gave a talk at the 4th UK Catalysis Conference in Loughborough and my first scientific paper as lead author is now in preparation.
A diesel exhaust. Image: Shutterstock
The funding and support offered by my SCI Scholarship will provide a valuable resource to help me extend my research to new areas of industrial importance and support my continual attendance at conferences and training courses relevant to my project work.