Explore this course:
Department of Chemistry,
Faculty of Science
This specialist course in polymer science is designed to train and expose you to the most modern aspects of polymer science. This course is excellent preparation for a career in industry or continued academic studies at the forefront of polymer science.
Laboratory training covers a range of polymer synthesis methods and analytical techniques including size-exclusion chromatography, viscosity analysis, and IR and NMR spectroscopy. Other modules cover polymer design in a wide variety of industries, how polymer science can support sustainability, radical polymerisation, and biopolymers ranging from proteins and DNA to innovative drug delivery systems.
You will also take part in a research training programme and complete your own research project, which will take up a third of your course. Some students work on projects with an industry partner.
We have state-of-the-art research laboratories and we're home to several multimillion pound research facilities. These facilities include the Lord Porter Laser Laboratory, which has three laser stations that can be used in studies ranging from energy transport in molecules and materials to artificial photosynthesis, and our Soft Matter Analytical Laboratory, where scientists can study samples that are 100 times smaller than a human hair.
- Essential Polymer Chemistry
This module introduces essential chemistry of polymers include polymer structure, synthesis of polymers, their characterisation and physicochemical behaviours. Topics include structural features of polymers and how these affect properties, synthesis of polymers via step and chain growth routes, determination of molar mass, and thermal characterisation.15 credits
- Application Led Polymer Design
Polymers can be made with a wide range of properties that allows them to be used in a huge range of applications. In this module, you will undertake a series of case studies looking at how to design polymers for specific applications such as coatings, adhesives, and medical devices.15 credits
- Technologies for Sustainability
Our current manufacturing technologies for15 credits
chemicals, plastics and construction materials, are carbon intensive
technologies and in order to maintain our living standards we need to
decarbonise those technologies. In order
to achieve this overarching aim, we need to make better use of fossil-based and
renewable resources, and move towards a circular economy. Topics include the
current status of the industry, life-cycle analysis, non-fossil fuel and feedstocks, and reuse reforming and recycling.
This will be focused to the following main areas:
Fine chemicals and commodities.
This module will discuss the current state-of-the-art of fine chemicals and commodities manufacturing and how to minimize their impact to the environment.
Plastic and polymers.
Plastic waste is a growing problem and this course will discuss the challenges associated with current plastics, what the alternatives are and whether they will be feasible.
Glass, Cement, Steel and other metals.
This module will describe the manufacturing processes at the centre of the construction sector, and how to mitigate their footprint.
- Polymer Laboratory
This unit covers the fundamentals of practical polymer construction and analysis. Topics covered include polymer synthesis via a number of methods (including chain- and step-reaction routes). A range of analytical techniques will also be introduced. These will include size-exclusion chromatography, viscosity analysis, and spectroscopy (IR and NMR). Experiments involving the modification and application of polymers will also be studied.15 credits
- Research, Presentation and Professional Skills
This module aims to prepare students to become professional scientific researchers ready to conduct a research project. Students will be taught how to retrieve and critically assess the existing literature on a particular research topic and to communicate this as a scientific review. They will learn about the attributes of an ethical researcher, scientific method and how to undertake research safely and responsibly and how to manage data. In addition, students will acquire professional skills relevant to their future employability and learn how to present scientific information. Students will undertake a training needs analysis supported by an experienced researcher so that they can take charge of their own development. This will allow them to tailor their subsequent training to the project they are about to undertake and to their wider individual professional and researcher development. On completion of the module students will have produced a portfolio of work that will form the foundations of their training as a professional researcher.30 credits
- Polymer Research Project
A core unit in which the candidate undertakes an extended research project in an area of polymer chemistry under thesupervisionthe supervision of a member of academic staff. Projects use state -of-the-art research facilities. Students undertake a thorough literature search, receive a viva, and present a thesis60 credits
Optional modules – two from:
- Biopolymers and Biomaterials
Biopolymers and biomaterials encompass materials from proteins, DNA, and carbohydrates to natural or synthetic materials that have been engineered to interact with biological systems for medical purposes. The synthesis, assembly and function of various biomolecules is initially presented, along with details about how these molecules interact with other natural and synthetic materials. The module builds on these ideas to discuss specific uses, with an emphasis on biological and medicinal applications. These include concepts such as biocompatibility, polymer based implants, bio-sensors, drug delivery, magnetic materials and medical devices. At the end of this module you will be equipped to investigate more advanced concepts techniques involved in biopolymer and biomaterials research.15 credits
- Chemistry of Radical Polymerisation
Traditionally, free radicals were considered to be a highly reactive species; difficult to control, and with poor selectivity. However, many radical reactions take place with a high degree of control. This module will explain the structure, stability and reactivity of radicals, which are key to many chemical processes. It will cover radical reactions in organic synthesis, such as radical additions and cyclisations before extending into radicals in a polymer chemistry context, including controlled radical polymerisation processes such as atom transfer radical polymerisation and reversible addition-fragmentation chain transfer polymerisation.15 credits
- Polymer Materials Science and Engineering
The aim of the module is to demonstrate the relationship between chemical structure, molecular organisation, microstructure and physical properties of polymers in the solid state, to draw parallels between synthetic polymers and biopolymers, to introduce the types of high-strength high-modulus polymers, their processing, properties and application, and to introduce liquid crystals and LC polymers.15 credits
The content of our courses is reviewed annually to make sure it's up-to-date and relevant. Individual modules are occasionally updated or withdrawn. This is in response to discoveries through our world-leading research; funding changes; professional accreditation requirements; student or employer feedback; outcomes of reviews; and variations in staff or student numbers. In the event of any change we'll consult and inform students in good time and take reasonable steps to minimise disruption. We are no longer offering unrestricted module choice. If your course included unrestricted modules, your department will provide a list of modules from their own and other subject areas that you can choose from.
An open day gives you the best opportunity to hear first-hand from our current students and staff about our courses. You'll find out what makes us special.
1 year full-time
- Laboratory practicals
- Individual research projects
- Assessed workshops
- Dissertation and viva
Graduates from this course apply their polymer chemistry expertise in many different industries – from oils, paints and coatings, to food, cleaning agents and cosmetics, to medical, agricultural and aerospace technologies.
This course is also great preparation for a PhD and a career in chemistry research. It’s led by the experts behind the Polymer Centre – the UK's largest polymer research network within a single institution, made up of 48 research groups at the University of Sheffield, which has fostered many collaborations with businesses.
Starting a career in renewable energy research
PhD student, Stephenson Institute for Renewable Energy, MSc Polymers for Advanced Technologies
A good honours degree or relevant experience in chemistry, chemical physics, chemical engineering, materials or a related subject.
Overall IELTS score of 6.5 with a minimum of 6.0 in each component, or equivalent.
If you have any questions about entry requirements, please contact the department.
Fees and funding
You can apply for postgraduate study using our Postgraduate Online Application Form. It's a quick and easy process.
+44 114 222 9500
Any supervisors and research areas listed are indicative and may change before the start of the course.
Recognition of professional qualifications: from 1 January 2021, in order to have any UK professional qualifications recognised for work in an EU country across a number of regulated and other professions you need to apply to the host country for recognition. Read information from the UK government and the EU Regulated Professions Database.