Are you up to the challenge of finding innovative methods and sustainable solutions to the threats facing the environment? The Environmental Sciences master's programme in Wageningen has its roots in the natural, technological and social sciences. Students will gain insight into the socio-economic causes and the characteristics of pollution and degradation of the natural environment, including the effects on human beings, the atmosphere, ecosystems and other organisms. This two-year programme is based on an interdisciplinary approach. Students learn to develop analytical tools and models, as well as technologies, socio-political arrangements and economic instruments to prevent and control environmental and sustainability issues.
The Environmental Sciences MSc programme of Wageningen University is an international programme containing one year of course work and and one year of research. It is thesis-oriented with the individual research project (major) as its core. Compulsory elements are kept at a minimum, thus enabling the coursework to be tailored to the wishes and needs of the individual student. Study adviser and thesis supervisor both assist the student in selecting the most relevant courses from what Wageningen University has to offer. Read more about the background of the programme.
Within the master's programme you can choose from the following Thesis tracks to meet your personal interests:
Graduates find jobs at many different organisations. Professional job possibilities can be found as:
Read more about the career perspectives and opportunities.
The MSc in Analytical and Forensic Chemistry is aimed at those with a strong interest in modern instrumentation and in novel methods of chemical and forensic analysis.
A revolution in forensic, environmental and pharmaceutical science has been borne through advances in analytical science. We are now seeing a strong, worldwide demand for imaginative, skilled analysts who have knowledge and hands-on experience of modern analytical instrumentation.
Forensic science is a multidisciplinary activity that relies on chemical and analytical techniques to provide invaluable evidence from investigations of disasters, accidents and criminal activities. It may involve the detection of tiny amounts of explosives, poisons and drugs or the identification of fibres, paints, combustion residues, glass fragments, or counterfeit currency. Forensic work is also of a biological nature, with crime detection techniques such as DNA fingerprinting requiring an understanding of the underlying biochemistry.
The University’s Analytical Science Group has an international reputation for its innovative approach to analytical and forensic chemistry. We are one of the UK’s premier analytical groups, with a range of state-of-the-art facilities and instrumentation.
In Semester 1 you take three core modules. These are designed to give a broad and balanced understanding of the most important developments in modern analytical and forensic chemistry:
In Semester 2 you use key research tools – such as online information retrieval – to learn about the background and the planning behind your chosen research project. You will also develop specialist knowledge of analytical and forensic chemistry:
In Semester 3 you complete an advanced analytical and forensic chemistry research project culminating in a Masters-level thesis and an oral presentation of your research successes:
Your learning will be diverse and varied. It will include interactive lectures, workshops, laboratory practicals, and computer lab sessions. You will explore the theoretical, practical and investigative aspects of analytical chemistry and forensic science, and develop invaluable professional skills, including the application of quality assurance and health safety, oral and written communication skills, problem solving, data handling and working in teams.
* All modules are subject to availability.
We teach a modern curriculum covering key areas of analytical chemistry of importance to industry, including process analysis, quality assurance, spectrometry and chromatography; and cutting-edge interdisciplinary research topics in areas such as lab-on-a-chip.
The knowledge and skills you will learn on this MSc will prepare you for a career in forensic science providing invaluable evidence from investigations of disasters, accidents and criminal activities.
We undertake world-class research in many scientific areas and are famous for our pioneering work on liquid crystals. Many of our Masters students choose to progress on to PhD-level study.
This analytical chemistry masters is structured around a solid core comprised of the three main analytical techniques – Mass spectrometry, NMR spectroscopy and X-ray diffraction. Each of these techniques contains a number of key common themes (data collection, analysis and management). Supporting modules feature further analytical techniques and serve to embed themes of Good Laboratory Practice (GLP), facility management and enterprise into the programme. A group analytical project develops interpersonal skills and the ability to work in a team and will be the first opportunity for students to independently fully exercise some of the components of the course taught in the first semester. The integral research project provides an opportunity to explore any of the main themes directly or as part of a collaborative synthetic/analytical investigation.
Analytical Chemistry is the largest employment area for the chemical sciences. The Instrumental Analytical Chemistry MSc gives you a boost to your bachelor’s degree that significantly increases your employability. We offer an advanced, instrumentation-driven postgraduate education in modern analytical chemistry with some elements in combination with one or more specialist research areas such as synthesis or data science.
You will receive comprehensive, hands-on, training with state-of-the-art research-led instrumentation in the techniques and provision of Mass Spectrometry, Nuclear Magnetic Resonance Spectroscopy and X-ray Diffraction. This training will then be used in your research project, which focuses on the application of these techniques to most areas of mainstream chemistry.
The MSc masters in analytical chemistry programme will provide you with knowledge, understanding and strong practical skills in:
¹ Analytical science currently defined by the EPSRC as principally consisting of mass spectrometry, NMR spectroscopy and X-ray diffraction
With a masters in analytical chemistry you could find employment with:
Chemists have always been in demand worldwide with pharmaceutical and biotechnology industries, fine chemicals, and within research laboratories across the globe. The programme at Aberdeen is accredited by the Royal Society of Chemistry. Aberdeen is noted for Nobel prizes within Chemistry which include the invention of modern chromatography (Synge 1952) and the discovery of a new element - protactinium (Soddy 1921). Teaching at Aberdeen is informed by world class research within food security. Class sizes are kept small to enable you to have strong teaching interaction and support in your studies. You will be taught by many staff in the environment group (TESLA) and (MBC)
The programme focuses on specialised modern analytical methodology. The range of industries or institutes where these skills are asked for includes the pharmaceutical industry, environmental institutions, research institutes and also the oil & gas industry. There are many new innovations which require chemists with advanced skills to analyse and test new methods of providing health via IOT devices, smart phones and small sensors deployed throughout the body to quickly provide analysis and customised recommendations.
Find out more detail by visiting the programme web page
Find out about fees:
Find out more from the programme page
*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.
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The aim of the Option is to provide graduates with the skills to enter a wide range of environmental careers, with particular emphasis on environmental consultancy and regulatory job markets. The Option is designed to train students in analysis and assessment methods applicable to environmental contamination problems.
The Environmental Analysis and Assessment (EAA) Option comprises lectures plus two practical case studies, each with a different technical emphasis.
A large number of the lectures are from consultants, the regulators and industry professionals, many from alumni of the Option, providing the student with first-hand contact with live issues as well as the chance to discuss job opportunities with potential employers.
The Option lectures are supported by a number of site visits plus a five-day study tour to provide practical underpinning of the Option material.
The EAA Option is designed to train students from diverse scientific and technical backgrounds in assessment methods applicable to environmental contamination and pollution problems.
The emphasis throughout the course is on the use of quantitative environmental assessment methodologies, including:
A thorough grounding in physical, chemical and biological processes of contaminant behaviour in the environment is provided as the basis for understanding the impacts of chemical contamination. This is strengthened by the introduction to, and use of, predictive modelling techniques for assessing risks and impacts associated with either real or hypothetical contamination scenarios.
To complement and enhance teaching of quantitative aspects of environmental assessment techniques, classical EIA and auditing methodologies are also an important course component.
After completion of the course the students should be able to:
Environment and Health
Air Pollution and Climate Change
Waste and Resource Management
Environmental Decision Making and Tools
Integrated Land Management
Environmental Pollution and Assessment
The majority of the graduates enter environmental consultancy both in the UK and abroad usually within the risk assessment and contaminated land areas, but this is not an exhaustive list. A second path of graduates is to regulatory agencies/government bodies such as the Environment Agency of England & Wales and the Department of Environment, Food & Rural Affairs. Other paths have included further study, the retail sector and banking. To date, the Option has had an excellent track record of employment with over 90% of graduates employed within 12 months of completing the MSc.
One piece of fieldwork is undertaken in collaboration with the WM and Health and HGWEoptions of the MSc, and provides a "real-world" case study of contaminated land and water on Hounslow Heath, near Heathrow Airport, in close collaboration with Hounslow London Borough Council. The second piece of fieldwork is a waste management project in collaboration with Veolia Waste Management Services Ltd., providing an opportunity for students to work on a typical waste management problem.
At the end of the Option term the EAA students will spend a week on location at a city somewhere in the UK visiting a variety of industrial facilities, plants and operations.
Advance your knowledge of analytical chemistry, your practical skills and professional and organisation skills on this course. You learn the fundamentals of analytical chemistry and how it is applied to pharmaceutical, environmental and materials analyses.
The course is taught by researchers with an international reputation in advanced analytical techniques, such as the application of mass spectrometry to the analysis of biological matrices. Tutors also have expertise in production and detection of nanoparticles and detection of pollutants, particularly in soil.
This course is suitable if you wish to increase your knowledge and skills and increase your competitiveness in the job market or pursue a PhD. It will also suit you if you work in a chemistry-related profession and are seeking to further your career prospects.
You gain experience and understanding of
This is a multi-disciplinary course where you learn about various topics including statistics, laboratory quality assurance and control, environmental analysis and fundamentals of analytical instrumentation.
You also gain the transferable skills needed to continue developing your knowledge in science, such as data interpretation and analysis, experimental design and communication and presentation skills.
You complete a research project to develop your research skills and their application to real world situations. You are supported by a tutor who is an expert in analytical chemistry.
Your laboratory work is carried out in our teaching laboratories which are extensively equipped with the latest models of analytical instruments such as HPLCs and GCs. This is supplemented by access to our research facilities where you have access to more sophisticated equipment, such as NMR and a suite of various types of mass spectrometers.
This course is accredited by the Royal Society of Chemistry (RSC). Applicants should normally have a degree (bachelors or equivalent) in chemistry that is accredited by the RSC. Applicants whose first degree is not accredited by the RSC, or with overseas degrees or degrees in which chemistry is a minor component will be considered on a case by case basis on submission of their first degree transcript.
Candidates who do not meet the RSC criteria for accreditation will be awarded a non-accredited masters qualification on successful completion of the programme.
Applicants will be informed in writing at the start of the programme whether or not they possess an acceptable qualification and, if successful on the masters programme, will receive an RSC accredited degree. If you do not meet the RSC criteria for accreditation, you will be awarded a non-accredited masters after successfully completing the programme.
The masters (MSc) award is achieved by successfully completing 180 credits.
The postgraduate certificate (PgCert) is achieved by successfully completing 60 credits.
The postgraduate diploma (PgDip) is achieved by successfully completing 120 credits.
Assessment methods include written examinations and coursework including
Research project assessment includes a written report and viva voce.
This course is aimed at either recent graduates or those already in employment who wish to develop a career in analytical chemistry or enhance their laboratory skills and knowledge in the techniques and methods used in a modern analytical science laboratory. It also offers you the training and knowledge to go on to research at PhD level in analytical science.
MSc Environmental Monitoring, Modelling and Reconstruction focuses on analysing past, present, and future dynamic environments, providing you with the skills for a career in environmental management or consultancy, and a firm grounding for research in the environmental sciences.
Concerns over the human impact on the environment have stimulated demand from governments and industry for the monitoring, analysis and modelling of natural processes in environmental systems. This is essential if we are to improve understanding of the interrelation of environmental variables in order to predict and manage their responses to anthropogenic perturbations.
Studying this course, you will gain:
We also use the proximity of Manchester to the upland areas of the Peak District; several past MSc students completed dissertation work in close collaboration with various organisations responsible for land management in the Peak District, giving their work direct policy relevance.
Teaching focuses on training in theory, concepts and research skills in the first semester, and practical applications and research experience in the second semester.
We teach course units in small-group interactive styles with a mix of lectures, tutorials, seminars, practicals and presentations. A range of physical geographers provide training in their specialised fields, covering both content and practical research methods.
In a typical week, expect to spend some time in the library, preparing for seminars; in the laboratory, completing practicals; in the dedicated postgraduate computer laboratory, or writing reports; and in the classroom.
The second semester in particular gives you increased opportunities to go out into the field, both for practicals and to gain research experience by doing field research with members of staff. We maintain an intensively monitored catchment on the moors near the Snake Pass in the Peak District and this is the focus of several practical exercises, as well as a source of data to support dissertation work.
Field and laboratory research are essential to your learning process in environmental monitoring, and these form integrated parts of both the taught units and dissertation work.
Part-time students complete the full-time programme over 27 months. There are NO evening or weekend course units available on the part-time programme, therefore if you are considering taking a programme on a part-time basis, you should discuss the requirements with the Programme Director and seek approval from your employer to have the relevant time off. Timetabling information is normally available from late August from the Programme Administrator and you will have the opportunity to discuss course unit choices during induction week with the Programme Director.
Taught units comprise two-thirds of the course and are assessed by a wide range of project work, essays and presentations. There are no formal examinations. The remainder of your course consists of the dissertation.
CORE COURSE UNITS
These typically cover:
OPTIONAL COURSE UNITS
Choose three from the following:
Availability of course units may vary from year to year.
LEVEL 4 OPTIONS
Students are allowed to take up to 2 of the following level 4 options:
Typical course units comprise a minimum of a one-hour lecture per week, or seminar supported by supervised laboratory time. The exact balance varies, depending on the requirements of particular units. Additional contact time is arranged on an ad hoc basis by students to discuss assignments and other matters. By the end of the course, you will have an advanced level of theoretical knowledge and practical experience in:
The Arthur Lewis Building provides excellent resources including analytical laboratories, studio facilities, workshops, seminar rooms, an onsite café and dedicated computer clusters including GIS facilities.
Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: [email protected]