Nicola Rogers

(Dr Nicola Rogers Simpson)

nicolarogers I am a post-doc researcher, and currently I am working on the ChemBam website, developing the experiments, and putting it all together. Most of the research that I have done so far in Chemistry has been related to the development of imaging agents, i.e. making molecules that we can see by MRI or by fluorescence microscopy. I have worked in research for nearly 3 years following my PhD, but I also spend quite a lot of my time cycling, running, and playing the clarinet.

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I studied Chemistry as an undergraduate at the University of Birmingham, and went on into PhD research with Professor Zoe Pikramenou at the University. During my PhD I made gold nanoparticles, and coated them in luminescent molecules, to make bright luminescent nanoparticles for imaging in cells, and in flow.

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Luminescent gold nanoparticles, made by attaching luminescent transition-metal complexes to gold nanoparticles using S-Au bonds. Nanoparticles imaged in animal cells (middle) and imaged in flow (right) using luminescence microscopes. My PhD thesis can be accessed here.
xelung
Lungs imaged using Xe gas, for full paper click here.

In 2014 I took on a short research position at the Sir Peter Mansfield Imaging Centre in Nottingham, and worked in the pulmonary imaging group of Professor Thomas Meersmann. I helped to develop new methods of using noble gases to image the lungs by MRI, by creating a ‘magnetic gas’ to inflate the lungs and look at lung disease.

Following this MRI work I joined the group of Professor David Parker in Durham, and spent two years developing molecules for detection by MRI. We developed molecular probes, using lanthanide complexes, that are more sensitive than current contrast agents used in the clinic, and which can also act as ‘smart’ molecules to read out information in the body, such as tissue acidity and temperature.

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Paramagnetic chemical-shift imaging agents visualised by MRI in the kidneys (after 1 min, top) and bladder (after 25 min, bottom). The chemical shift of the molecule’s reporter group allows us to determine the temperature in the organs. To read more on this research, access this paper here.

Access my researchgate profile here.

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