The MSc in Electrochemistry taught course builds upon our international reputation for excellence in research and education in Electrochemistry by offering an advanced, postgraduate education in Electrochemistry from the fundamental principles through to applications in Electrochemical Engineering. The course provides opportunities for you to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the identified areas.
Electrochemistry is central to processes with huge economic and societal impacts, e.g. electroplating, corrosion, chlorine, sodium hydroxide and aluminium production, electricity storage, sensing (blood glucose, pH). The MSc Electrochemistry will offer you a platform to develop your theoretical and practical skills and to undertake a challenging research project.
The modules offered will allow you to explore this fascinating interdisciplinary science and to specialise e.g. in batteries, fuel cells, electroanalytical techniques or electrochemical engineering.
The MSc in Electrochemistry course aims to:
A Chemistry masters degree will give students valuable insight into postgraduate research skills. Independent project work will support students to develop transferable skills in areas such as time management, communication and presentation skills that are key for career success in a wide range of areas such as industry, analysis, policymaking and scientific communication. Completing an MSc qualification will help individuals tackle the challenges of an advanced research degree at PhD level and prepare them for a career in academia.
Typical career destinations for the MSc in Electrochemistry include;
The global challenges of climate and energy require new technologies for renewable energy sources, methods of energy storage, efficient energy use, new lightweight vehicular structures, techniques for carbon capture and storage and climate engineering. This is a broad-based MSc, designed for graduates who wish to acquire skills in energy and materials science in order to participate in the emerging challenges to meet climate change targets.
Students gain an advanced knowledge of materials science as it applies to energy and environmental technologies and research skills including information and literature retrieval, critical interpretation and analysis, and effective communication. They can benefit from modules in chemistry, physics, chemical engineering or mechanical engineering, thus offering future employers a wide-ranging skills base. Graduates will be well qualified to deal with the problems of energy decision-making and the implications for the environment.
Students undertake modules to the value of 180 credits.
The programme consists of five core modules (90 credits), two optional modules (15 credits each) and a research project (60 credits).
An exit-level only Postgraduate Diploma (120 credits) is available.
An exit-level only Postgraduate Certificate (60 credits) is available.
Students take all of the following, totalling 90 credits, and a 60-credit research dissertation.
Students take 30 credits drawn from the following:
All MSc students undertake an independent research project which culminates in a dissertation of approximately 7,000-10,000 words, an oral presentation and a viva voce examination (60 credits).
Teaching and learning
The programme is delivered through a combination of lectures, seminars, self-study and research supervision. Assessment is through unseen written examination and coursework. The literature project is assessed by written dissertation and the research project is assessed by a written report and a viva voce examination.
Further information on modules and degree structure is available on the department website: Materials for Energy and Environment MSc
The UK has committed to 80% reduction in CO2 emissions on a 1990 baseline by 2050. CERES, the organisation that represents the largest institutional investors would like to see 90% reduction by 2050. National Systems of Innovation (NSI), which includes the universities, research centres and government departments working in conjunction with industry, will need to apprehend new opportunities and change direction, diverting personnel to energy and climate issues in response to changing markets and legislation. This MSc will contribute to the supply of personnel needed for the era of sustainability.
Recent career destinations for this degree
Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.
This programme is designed for graduates from a wide range of science and engineering backgrounds who wish to broaden their knowledge and skills into materials science with an emphasis on the energy and climate change issues that will drive markets over the next century. It delivers courses from five departments across three faculties depending on options and includes a self-managed research project which is intended to introduce the challenges of original scientific research in a supportive environment.
Research activities span the whole spectrum of energy-related research from the development of batteries and fuel cells to the prediction of the structure of new water-splitting catalytic materials.
Students develop experience in scientific method, techniques for reporting science and in the many generic skills required for a future career.
The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.
The following REF score was awarded to the department: Chemistry
94% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)
Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.
The MSc in Propulsion and Engine Systems Engineering is a broad based 1 year MSc course, that provides you the opportunity to specialise in the engineering sciences that are key to the design, monitoring and analysis of propulsion and engine systems. You will do compulsory modules on gas turbine, internal combustion, electrical and hybrid engines for a range of transport applications.
You will be able to further specialise by selecting optional modules in related technologies including condition monitoring, materials, engine tribology, noise control, environmental aspects, batteries, fuel cells and spacecraft propulsion. After completing the taught section (8 modules) you will complete the MSc course through an individual project. Projects will be available in a wide range of topics including engine materials, combustion modelling, electrical motors, engine noise control and engine tribology.
Do you love speed? Are you fascinated by the design and development of plane and car engines? Then choose MSc Propulsion and Engine Systems Engineering and see your career take flight. Propulsion and engine systems are the driving force of many life-defining technologies.
You will learn to confidently analyse and design advanced electrical systems. You will also study modules on gas turbines, internal combustion and electrical and hybrid engines for transport applications, including aircraft and automotive.
The year will be divided into two semesters. Each semester, you will study core modules as well as choosing specialist modules from Spacecraft Propulsion to Acoustics. You also have the option to specialise in topics relating to condition monitoring, materials, energy efficiency and engine tribology.
The final four months will focus on research. You will engage in experimental and practical study and complete a research project and dissertation. Projects cover a wide range of subjects including combustion modelling, electrical motors and engine noise control.
Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course.
This masters in Maritime Engineering Science / Marine Engineering one-year course enables students to specialise in marine engineering systems on board ships and offshore platforms that facilitate their functional capability.
Understanding how marine systems work is essential to their efficient design and operation. You will learn to apply advanced control design techniques and enhance your knowledge of instrumentation and sensors. You will also learn to analyse and design advanced power, propulsion, heating and cooling systems using thermodynamic principles.
The year is divided into two semesters. Each semester, in addition to a set of specialist modules, you have the opportunity to select option modules including fuel cells, batteries and maritime robotics. In the last four months, you will focus on research. You will complete a major research project and take advantage of our world-class maritime engineering facilities to perform your experimental work. You will also learn the broader principles of marine safety, law and management.
The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.
Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.