The application of catalysis in industrial processes can provide relevant contributions through the development of more energy- and time-efficient procedures. Generally, catalysts increase the rate of reactions and remain unchanged during the reaction. Therefore, the impact of catalysis in improving the efficiency of different industries through pollution control, air purification, food processing, etc. has been demonstrated. I have studied the proposed study area, an EPR (electron paramagnetic resonance) reactor combined with new microwave technology could not only provide a clearer understanding of catalytic pathways, but also allow investigation of other existing research questions such as damage caused to DNA by free radicals from ionizing radiation. This project crosses two fundamental branches of science, physics and chemistry, so it will contribute immensely to the existing body of knowledge. It will allow our understanding of reaction mechanisms in the field of catalysis and new microwave technology to become more comprehensive, thus leading to breakthrough discoveries and further research. I am excited about this project because it will give me the opportunity to use my academic qualifications and research skills in a study that has diverse applications in the manufacturing sector. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an original essay My decision to study for a PhD in chemistry at Cardiff University was carefully made after some discussions with my supervisors and some senior researchers. I am excited to dedicate the next phase of my academic career to relevant research like this with translational impact for the field. Equally, I intend to make full use of the wealth of knowledge and experience available at the globally recognized Cardiff Institute of Catalysis. Interact and collaborate with professors, academic specialists and industrial partners in the field of chemistry. I plan to study in a vibrant research environment with world-class facilities and access to computational training. Furthermore, I will have the opportunity to make a notable contribution to research and pursue a career in academia. I currently work with Swansea Medical School as a graduate research intern. As part of my tasks and projects, I am currently evaluating the spatial dose distribution observed in small field dosimetric measurements with the gamma dose assessment tool. The comparison is made between the absorbed dose at a point in a PTW 60019 microdiamond detector and EBT3 radiochromic film. The outcome of this project will likely lead to the revision and replacement of existing silver halide x-ray films with radiochromic films. This is vital for the safety of clinical scientists carrying out quality assurance checks in the department. Under appropriate supervision, I actively participated in reviewing and examining radiotherapy treatment plans of breast, head and neck cancer patients to ensure safe and accurate treatment delivery. Among others, these processes require a precise systematic approach to interpreting medical images with complex computer software to ensure that each treatment plan is optimized for the patient's tumor volume. The critical thinking skills I have developed would be relevant in analyzing and interpreting research data. This experience also increased my confidence as an independent thinker. Furthermore,.