Course summary
Climate change, and air, water and soil pollution are critical societal problems that will affect most, if not all communities, companies, and countries across the globe over the next 50 years. This programme will train you in cutting-edge environmental analytical chemical techniques that are used to investigate such pollution and guide mitigation and remediation. More widely, this programme will train you in advanced laboratory analysis, statistical and modelling approaches to interrogating and synthesising datasets, and reporting and communicating data. A particular feature of this MSc is the synthesis of data with training in written, oral, and other forms of communication. There will be particular emphasis on the use of such data to develop policy and/or practical recommendations. In the research project, you will be working on current topics drawn from environmental research such as urban air pollution, water quality and sustainable agriculture. This programme will appeal to a wide range of students with a science and engineering background. Although focused on environmental applications, you will gain a broad training that will facilitate progression to a diversity of future science and engineering-based careers. The need for experts in environmental analysis and remediation is predicted to increase, making graduates of this programme well placed to take up emerging jobs in companies and organisations requiring this type of expertise. The Organic Geochemistry Unit and the Atmospheric Chemistry Research Group that will run this course are both world-leading in environmental analytical science, being a home to a laboratory of the NERC-funded National Environmental Isotope Facility (NEIF) and a node of the NASA-funded Advanced Global Atmospheric Gases Experiment (AGAGE) project. Therefore, the collection of state-of-the-art chromatography and mass spectrometry platforms (including organic and stable isotope ratio mass spectrometers and an 14C accelerator mass spectrometer) combined with world-leading research is unparalleled. In addition, the School of Chemistry at the University of Bristol is home to the only Centre for Excellence in Teaching and Learning in practical Chemistry (Bristol ChemLabS) founded in 2005 and has pioneered teaching of analytical chemistry through virtual instruments and smart worksheets. Therefore, the combination of leading analytical science and education methods makes this course unique.
Assessment method
https://www.bristol.ac.uk/study/media/postgraduate/admissions-statements/2024/msc-environmental-analytical-chemistry.pdf
How to apply
International applicants
The University of Bristol welcomes applications from international students and accepts a wide range of qualifications for postgraduate study. If you study or have studied at a university outside the UK, please select the relevant page for further information on qualifications, scholarships and education representatives in your country/region: bristol.ac.uk/international/countries
Entry requirements
An upper second-class honours degree (or international equivalent) in one of the following degrees: Engineering (e.g Mechanical Engineering, Civil Engineering, Electrical and Electronic Engineering), Natural/Physical Sciences (e.g. Chemistry, Physics, Earth Science, Geology, Geographical Sciences, Environmental Sciences, Forensic Science, Food Science), Life Sciences (e.g. Biochemistry, Pharmacology, Molecular Biology, Computational Biology, Biophysics, Cell biology, Molecular biology, Physiology, Anatomy, Zoology, Plant sciences, Neuroscience, Psychology, Virology, Microbiology, Immunology, Medicine, Archaeological Science). Unfortunately we cannot consider applicants with Computer Science degrees for this programme. Applicants will also need to demonstrate competency in Maths and Chemistry with at least a grade 6 GCSE or international equivalent (whereupon a short quantitative methods primer course will be needed to be completed at the start of the course) or an A level in mathematics or equivalent at grade C or higher or one undergraduate Maths module at 2.1 or above. Mathematics and Statistics degrees might also be considered. Applicants will need to achieve a minimum of 5 science modules at 2.1 or above. For applicants who are currently completing a degree, we understand that their final grade may be higher than the interim grades or module/unit grades they achieve during their studies. We will consider applicants whose interim grades are currently slightly lower than the programme's entry requirements. We may make these applicants an aspirational offer. This offer would be at the standard level, so the applicant would need to achieve the standard entry requirements by the end of their degree. Specific module requirements may still apply. We will consider applicants whose grades are slightly lower than the programme's entry requirements, if they have at least one of the following: - evidence of significant, relevant work experience with minimum of 6 months working at solving scientific problems or as a technician. - a relevant postgraduate qualification. If this is the case, applicants should include their CV (curriculum vitae / résumé) when they apply, showing details of their relevant work experience and/or qualifications. See international equivalent qualifications on the International Office website: https://www.bristol.ac.uk/international/countries/
Fees and funding
Tuition fees
England | £14000 | Year 1 |
Northern Ireland | £14000 | Year 1 |
Scotland | £14000 | Year 1 |
Wales | £14000 | Year 1 |
Channel Islands | £14000 | Year 1 |
EU | £30900 | Year 1 |
International | £30900 | Year 1 |
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
Provider information
University of Bristol
Beacon House
Queen’s Road
Bristol
BS8 1QU