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Masters Degrees (Analytical Sciences)

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This course provides postgraduate education in Forensic and Analytical Sciences. Forensic Science involves the use of scientific techniques and principles to address questions of interest to a court of law. Read more
This course provides postgraduate education in Forensic and Analytical Sciences. Forensic Science involves the use of scientific techniques and principles to address questions of interest to a court of law. This course provides you with an overview of forensic science in general, following the crime scene to court model. This includes a series of crime scene exercises in our crime scene facilities, covering strategies for crime scene examination and an exploration of techniques associated with crime scene examination. You will also receive a comprehensive overview of most of the forensic science disciplines through the forensic biology and forensic chemistry module. You will also explore quality, which is an increasingly fundamental issue within forensic science industry; as well as the presentation of evidence and preparations for defending your evidence in a court of law.

In addition, you will then study modules underpinning the analytical sciences, which is a major source of employment for scientists, reflected in our high graduate employment rate. These modules will provide you with a comprehensive overview of the most recent technological developments and applications in Analytical Sciences. Instrumental techniques used in the analysis of organic compounds, metals, solids, etc. are all covered. Possible sources of error in experimental and instrumental analysis are discussed, thus allowing the correct interpretation of experimentally-derived scientific data. This course is comprised of two thirds taught component and one third research project component.

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The course will provide a systematic training in the application of modern analytical methods. It provides the necessary practical, interpretative analytical skills to apply a wide range of analytical techniques to key areas of application. Read more
The course will provide a systematic training in the application of modern analytical methods. It provides the necessary practical, interpretative analytical skills to apply a wide range of analytical techniques to key areas of application. This programme is designed to develop you to become an experienced, independent practitioner of modern analytical science in tune with the needs of research and industry.

Measurement is at the core of science, and this programme develops a core of operational experience of modern analytical instrumentation alongside the fundamentals of the analytical sciences. The application of these core capabilities is then developed within thematic pathways aligned to key academic and commercial sectors.
-Analytical Chemistry
-Archaeological Analysis
-Environmental Analysis
-Forensic Analysis
-Pharmaceutical Analysis

To find out more about the part time version of this course, please view this web-page: http://www.brad.ac.uk/study/courses/info/analytical-sciences-msc-part-time

Why Bradford?

The course was developed in conjunction with academic experts and provides defined pathways related to specific application areas of instrumental analytical sciences.

The course's multidisciplinary platform is based at the University of Bradford's state-of-the-art Analytical Centre, a £4 million facility housing major capital equipment.

Rankings

Ranked 18th in the UK for Chemistry in the Guardian University League Tables 2017.

Career support and prospects

The University is committed to helping students develop and enhance employability and this is an integral part of many programmes. Specialist support is available throughout the course from Career and Employability Services including help to find part-time work while studying, placements, vacation work and graduate vacancies. Students are encouraged to access this support at an early stage and to use the extensive resources on the Careers website.

Discussing options with specialist advisers helps to clarify plans through exploring options and refining skills of job-hunting. In most of our programmes there is direct input by Career Development Advisers into the curriculum or through specially arranged workshops.

Many students go on to study for PhDs either at Bradford or elsewhere. Recent graduates have taken up analytical scientist managerial roles in international companies.

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This course is designed for scientists who wish to develop their skills in DNA Analysis, Proteomics and Metabolomics. The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists who wish to develop their skills in DNA Analysis, Proteomics and Metabolomics.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Sciences DNA Analysis, Proteomics and Metabolomics course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website https://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate-taught-full-time/dna-analysis-proteomics-and-metabolomics

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•DNA Analysis, Proteomics and Metabolomics
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Science DNA Analysis, Proteomics & Metabolomics

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditation

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This course is designed for scientists who wish to develop their skills in Drug Analysis and Toxicology. The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists who wish to develop their skills in Drug Analysis and Toxicology.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Science Drug Analysis and Toxicology course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website http://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate/ias-drug-analysis-and-toxicology-ft

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•Drug Analysis and Toxicology
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Sciences Drug Analysis and Toxicology

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This course is designed for scientists and engineers who wish to develop their skills in environmental analysis. The involvement of industry in the design of the course and a industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists and engineers who wish to develop their skills in environmental analysis.

The involvement of industry in the design of the course and a industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Science Environmental Analysis course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

See the website http://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate/environmental-analysis-ft

Stage 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Stage 2

•Environmental Analysis
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Stage 3

•MSc Research Project

Award: MSc Instrumental Analytical Science Environmental Analysis

Format

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This course is designed for scientists and engineers who wish to develop their skills in oilfield chemistry. 2013/14 entry free places available for Scottish/EU Students. Read more
This course is designed for scientists and engineers who wish to develop their skills in oilfield chemistry. 2013/14 entry free places available for Scottish/EU Students.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. There is extensive opportunity for practical experience throughout the course. Students on the MSc Instrumental Analytical Science Oilfield Chemicals course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website http://www.rgu.ac.uk/laboratory-biomedical-and-sports-sciences/study-options/postgraduate-taught-full-time/oilfield-chemicals

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•Oilfield Chemicals
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Science Oilfield Chemicals

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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In the Bio-Pharmaceutical Sciences master’s programme you are trained at the leading edge of drug-design and fundamental research of new drugs, optimization of existing drugs, and personalised medicine. Read more

In the Bio-Pharmaceutical Sciences master’s programme you are trained at the leading edge of drug-design and fundamental research of new drugs, optimization of existing drugs, and personalised medicine.

Specialisations

What does this master’s programme entail?

Despite major advances in drug-research, many common diseases such as cancers, neurological diseases, cardiovascular disease and other auto-immune diseases, lack effective treatment, or are found incurable. You are trained for a scientific career in drug research and development. Depending on your interest, you can choose from seven specialisations to further extend your scientific training and theoretical background.

Read more about our Bio-Pharmaceutical Sciences programme.

Why study Bio-Pharmaceutical Sciences at Leiden University?

  • The programme is offered by the Leiden Academic Centre for Drug Research (LACDR) – one of the world leading academic pharmaceutical research groups.
  • We offer you a research-oriented programme in which you can specialize in different areas in the wide spectrum of drug research; from Analytical BioSciences, Biopharmaceutics, Drug Delivery Technology, Medicinal Chemistry to Pharmacology, and Toxicology.
  • The programme offers flexibility and tailoring to meet your individual scientific interests and career aspirations.

Find more reasons to study Bio-Pharmaceutical Sciences at Leiden University.

Bio-Pharmaceutical Sciences: the right master’s programme for you?

The master’s programme of Bio-Pharmaceutical Sciences (BPS) aims to train you in the research area of bio-pharmaceutical sciences and drug research in such a way that you have extensive knowledge and hands-on experience to be able to work independently as a scientific researcher. Moreover, you have a wide range of other career opportunities bio-pharmaceutical industry, science communication, and education.



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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. Read more

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.

Study programme

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.

Thesis tracks

Within the master's programme you can choose from the following Thesis tracks to meet your personal interests:

Your future career

Graduates find jobs at many different organisations. Professional job possibilities can be found as:

  • A researcher at a university or a research institute
  • An adviser at governmental authorities (ministries, provinces and municipalities) or waterboards
  • An engineer or a consultant in the industry

Read more about the career perspectives and opportunities.

Related programmes:

MSc Climate Studies 

MSc Urban Environmental Management

MSc Earth and Environment 

MSc Forest and Nature Conservation

MSc Aquaculture and Marine Resource Management.



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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. Read more

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.

Study information

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:

  • Topics in Analytical and Forensic Chemistry
  • Analytical and Forensic Laboratory with Specialist Topics
  • MSc Skills and Laboratory Techniques

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:

  • Advanced Topics in Forensic and Analytical Chemistry
  • Advanced Topics in Molecular Medicine
  • MSc Project Literature Review

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:

  • Masters Extended Research Project

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.

Future prospects

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.



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Penn’s Master of Chemical Sciences is designed for your success. Chemistry professionals are at the forefront of the human quest to solve ever-evolving challenges in agriculture, healthcare and the environment. Read more
Penn’s Master of Chemical Sciences is designed for your success
Chemistry professionals are at the forefront of the human quest to solve ever-evolving challenges in agriculture, healthcare and the environment. As new discoveries are made, so are new industries — and new opportunities. Whether you’re currently a chemistry professional or seeking to enter the field, Penn’s rigorous Master of Chemical Sciences (MCS) builds on your level of expertise to prepare you to take advantage of the myriad career possibilities available in the chemical sciences. With a faculty of leading academic researchers and experienced industry consultants, we provide the academic and professional opportunities you need to achieve your unique goals.

The Penn Master of Chemical Sciences connects you with the resources of an Ivy League institution and provides you with theoretical and technical expertise in biological chemistry, inorganic chemistry, organic chemistry, physical chemistry, environmental chemistry and materials. In our various seminar series, you will also regularly hear from chemistry professionals who work in a variety of research and applied settings, allowing you to consider new paths and how best to take advantage of the program itself to prepare for your ideal career.

Preparation for professional success
If you’ve recently graduated from college and have a strong background in chemistry, the Master of Chemical Sciences offers you a exceptional preparation to enter a chemistry profession. In our program, you will gain the skills and confidence to become a competitive candidate for potential employers as you discover and pursue your individual interests within the field of chemistry. Our faculty members bring a wealth of research expertise and industry knowledge to help you define your career direction.

For working professionals in the chemical or pharmaceutical industries, the Master of Chemical Sciences accelerates your career by expanding and refreshing your expertise and enhancing your research experiences. We provide full- and part-time options so you can pursue your education without interrupting your career. You can complete the 10-course program in one and a half to four years, depending on course load.

The culminating element of our curriculum, the capstone project, both tests and defines your program mastery. During the capstone exercise, you will propose and defend a complex project of your choice, that allows you to stake out a new professional niche and demonstrate your abilities to current or prospective employers.

Graduates will pursue fulfilling careers in a variety of cutting-edge jobs across government, education and corporate sectors. As part of the Penn Alumni network, you’ll join a group of professionals that spans the globe and expands your professional horizons.

Courses and Curriculum

The Master of Chemical Sciences degree is designed to give you a well-rounded, mechanistic foundation in a blend of chemistry topics. To that end, the curriculum is structured with a combination of core concentration courses and electives, which allow you to focus on topics best suited to your interests and goals.

As a new student in the Master of Chemical Sciences program, you will meet with your academic advisor to review your previous experiences and your future goals. Based on this discussion, you will create an individualized academic schedule.

The Master of Chemical Sciences requires the minimum completion of 10 course units (c.u.)* as follows:

Pro-Seminar (1 c.u.)
Core concentration courses (4-6 c.u., depending on concentration and advisor recommendations)
Elective courses in Chemistry, such as computational chemistry, environmental chemistry, medicinal chemistry, catalysis and energy (2-4 c.u., depending on concentration and advisor recommendations)
Optional Independent Studies (1 c.u.)
Capstone project (1 c.u.)
Pro-Seminar course (CHEM 599: 1 c.u.)
The Pro-Seminar will review fundamental concepts regarding research design, the scientific method and professional scientific communication. The course will also familiarize students with techniques for searching scientific databases and with the basis of ethical conduct in science.

Concentration courses
The concentration courses allow you to develop specific expertise and also signify your mastery of a field to potential employers.

The number of elective courses you take will depend upon the requirements for your area of concentration, and upon the curriculum that you plan with your academic advisor. These concentration courses allow you to acquire the skills and the critical perspective necessary to master a chemical sciences subdiscipline, and will help prepare you to pursue the final capstone project (below).

You may choose from the following six chemical sciences concentrations:

Biological Chemistry
Inorganic Chemistry
Organic Chemistry
Physical Chemistry
Environmental Chemistry
Materials
Independent Studies
The optional Independent Studies course will be offered each fall and spring semester, giving you an opportunity to participate in one of the research projects being conducted in one of our chemistry laboratories. During the study, you will also learn analytical skills relevant to your capstone research project and career goals. You can participate in the Independent Studies course during your first year in the program as a one-course unit elective course option. (CHEM 910: 1 c.u. maximum)

Capstone project (1 c.u.)

The capstone project is a distinguishing feature of the Master of Chemical Sciences program, blending academic and professional experiences and serving as the culmination of your work in the program. You will develop a project drawing from your learning in and outside of the classroom to demonstrate mastery of an area in the chemical sciences.

The subject of this project is related to your professional concentration and may be selected to complement or further develop a work-related interest. It's an opportunity to showcase your specialization and your unique perspective within the field.

Your capstone component may be a Penn laboratory research project, an off-campus laboratory research project or a literature-based review project. All components will require a completed scientific report. It is expected that the capstone project will take an average of six months to complete. Most students are expected to start at the end of the first academic year in the summer and conclude at the end of fall semester of the second year. Depending on the capstone option selected, students may begin to work on the capstone as early as the spring semester of their first year in the program.

All capstone project proposals must be pre-approved by your concentration advisor, Master of Chemical Sciences Program Director and if applicable, your off-campus project supervisor. If necessary, nondisclosure agreements will be signed by students securing projects with private companies. Additionally, students from private industry may be able to complete a defined capstone project at their current place of employment. All capstone projects culminate in a final written report, to be graded by the student's concentration advisor who is a member of the standing faculty or staff instructor in the Chemistry Department.

*Academic credit is defined by the University of Pennsylvania as a course unit (c.u.). Generally, a 1 c.u. course at Penn is equivalent to a three or four semester hour course elsewhere. In general, the average course offered at Penn is listed as being worth 1 c.u.; courses that include a lecture and a lab are often worth 1.5 c.u.

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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. Read more

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.

Introducing your course

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.

Overview

The MSc masters in analytical chemistry programme will provide you with knowledge, understanding and strong practical skills in:

  •  The fundamental analytical techniques¹: Mass spectrometry, NMR spectroscopy and X-Ray diffraction (single crystal and powder);
  • Other general characterisation techniques (IR & UV spectroscopy, TEM, TG/DSC, CD) and separation science methodology;
  • GLP, electronic recording, data management, facility management and exploitation of results;
  • Data analysis, experimental design and chemometrics;
  • Planning of a safe working practice, including evaluation of hazards and environmental effects;
  • Working within a small team to achieve a common research goal;
  • Self-led practical-based research, particularly on characterisation and analytical instrumentation.
  • The ways in which it is possible to exploit the results of research.

¹ Analytical science currently defined by the EPSRC as principally consisting of mass spectrometry, NMR spectroscopy and X-ray diffraction

View the programme specification document for this course

Career Opportunities

With a masters in analytical chemistry you could find employment with:

  • Government agencies
  • Publicly funded research councils
  • Hospitals
  • Public health laboratories
  • Environmental agencies
  • Specialist research organisations
  • Consultancies
  • Testing companies
  • Private food, materials, polymers, biotechnology, pharmaceutical and chemical companies.
  • Petrochemical companies


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The two-year master’s programme Statistical Science for the Life and Behavioural Sciences provides you with a thorough introduction to the general philosophy and methodology of statistical modelling, data analysis and data science. Read more

The two-year master’s programme Statistical Science for the Life and Behavioural Sciences provides you with a thorough introduction to the general philosophy and methodology of statistical modelling, data analysis and data science.

What does this master’s programme entail?

The two-year master’s programme in Statistical Science provides you with a thorough introduction to the general philosophy and methodology of statistical modelling and data analysis. The programme consists of a core programme shared by all students, and specialisation specific courses, electives, an internship or research project and master’s thesis. You can specialise in either life and behavioural sciences, where the emphasis is on the application in multidisciplinary environments, or in data sciences where you focus more on data mining, pattern recognition and deep learning.

Read more about the Statistical Science for the Life and Behavioural Sciences programme.

Why study Statistical Sciences for the Life and Behavioural Sciences at Leiden University?

  • Each specialisation offers you a unique combination of knowledge and expertise. These allow for a thorough preparation for a career as a data scientist, researcher or statistician anywhere.
  • Job perspectives after graduation are great: statisticians and data scientists are highly sought after in various industries such as academia, marketing, banking, government, official statistics, healthcare, bioinformatics and more.
  • The Statistical Science programme is a collaborative effort. Four Leiden University Institutes closely collaborate with top research institutes such as Wageningen UR and VUMC, which means that your education is provided by experts in their respective fields.

Find more reasons to choose Statistical Science for the Life and Behavioural Sciencese at Leiden University.

Statistical Sciences for the Life and Behavioural Sciences: the right master’s programme for you?

The field of statistics, like other areas of applied mathematics, often attracts students who are interested in the analysis of patterns in data: developing, understanding, abstracting, and packaging analytical methods for general use in other subject areas. Statistics is also, by definition, an information science. Imaginative use of both computing power and new computing environments drives much current research - so an interest in computation and/or computer science can also be a start for a statistician. With the growing importance of data within our society, you’ll be highly in demand with a degree in Statistical Sciences.

Read more about the entry requirements for the Statistical Science programme.



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Overview. Read more

Overview

This master programme aims to provide highly employable analytical scientists who not only have a thorough understanding of the key techniques within the discipline but also have successfully completed an extended project either set in an industrial context or carried out in the laboratories of one of our industrial partners.

As a student on the programme, you will benefit from our research expertise and our links with industries that provide the foundation for placement opportunities. All students on this MSc will undertake a 30 week placement with an industrial context, either in Keele University’s laboratories or at the industrial partner’s premises, which will ultimately boost your employability skills.

The focus of this master's degree is very much on each student acquiring the scientific knowledge, the technical skills and the wide range of professional skills to enable them to start their career working with confidence in an industrial or international laboratory context.

See the website https://www.keele.ac.uk/pgtcourses/mscanalyticalscienceforindustry/

Course Aims

Knowledge

- To engender and develop an enthusiasm for analytical science and provide an intellectually stimulating and beneficial learning experience

- To provide an education to master’s level in key areas of analytical science, principally in chromatography, spectroscopy, microscopy and related techniques, and including the analysis and interpretation of experimental and digital data

- To provide a thorough knowledge and experience of techniques relevant to the analytical sciences and their practical application across a range of relevant materials and applications

- To provide a critical awareness of and engagement with current methods and techniques within the analytical sciences, some of which is at, or informed by, the forefront of the discipline

Skills:

- To develop confidence in practical, analytical, problem-solving and quantitative skills within the context of analytical science

- To demonstrate the abilities and skills necessary to research, devise, plan, execute and report on an original investigation or research project within the discipline

Employment:

- To demonstrate a high level of scientific knowledge and skills, including transferable skills, in a UK-based or international workplace setting

- To be able to deal with complex issues, including ethical issues, both systematically and creatively, make sound judgements in the absence of complete data, and communicate outcomes clearly to specialist and non-specialist audiences;

- To demonstrate independence and originality in tackling and solving problems, and act autonomously in planning and implementing tasks at a professional or equivalent level

- To demonstrate the qualities and transferable skills necessary for employment requiring:

the exercise of initiative and personal responsibility,

confidence in decision-making in complex, unpredictable and open-ended situations,

the independent learning ability required for continuing professional development,

productive collaborative working with others.

Course content

The first semester is spent at Keele studying modules on research skills, industrial context and both the theory and practice of analytical techniques, principally those based on chromatography, spectroscopy and imaging/ microscopy.

The extended individual project is carried out over semesters two and three, either at Keele or in the laboratories of an industrial partner. The location and nature of the project will be decided at the start of the programme and, for each individual student, many of the skills they develop in semester one will be studied and demonstrated in the context of their project topic.

These include literature review, research context, which includes planning, financial and ethical considerations, and science communication. There will also be lectures and laboratory classes aimed at extending your understanding of analytical techniques applied to industrial materials and problems and how such measurements are quality assured.

You will also develop the ability to use a range of data analysis methods and databases to interpret the results of your work and be able to write informative reports and use other means to communicate these outcomes to others.

The assessment of the extended project will include a written report, as well as participation in a post-graduate student symposium where you will present your work to both staff and students.

An overview is provided here - https://www.keele.ac.uk/pgtcourses/mscanalyticalscienceforindustry/

Teaching & Assessment

A broad range of teaching methods are employed including lectures, laboratory classes, problems classes, workshops and informal tutorials. As this is a post-graduate course there is an emphasis on tutor-guided, independent work. During the extended project whether undertaken at Keele or within an industrial laboratory, you will work both on your own tasks and in a team context with others and this will be evidenced through your project portfolio.

Over the whole programme the assessment tasks will be set in the context of the work of a professional analytical scientist and will provide a variety of challenges within which you can demonstrate the development of your knowledge and skills.

All academic staff operate an open-door policy and are happy to provide support, advice and guidance to all students subject to their availability.

Additional Costs

There may be additional living costs associated with the industrial project placement part of this programme which would depend on the nature and location of the placement and the individual circumstances and choices of the student. These would be discussed with the course tutor prior to enrolment. There would also be general costs for text books, inter-library loans, photocopying and printing, for example.

International Students

We welcome international students on this course. All international students will undertake a project at Keele University, that links in with industry. Please contact us for the entry requirements for international students.

Applicants who have not had their secondary or tertiary education through the medium of English are expected to have attained the equivalent of an IELTS score of at least 6.5 from an IELTS provider, which is approved by Keele University. Applicants are invited to contact the University before taking the IELTs test.

Distinctive Keele Curriculum

MSc programmes at Keele offers the added value of the Distinctive Keele Curriculum (DKC), which develops students' intellectual, personal and professional capabilities (Keele Graduate Attributes) through both subject-specific and generic workshops and activities.

Scholarships

There are substantial scholarships available, please see this link: http://www.keele.ac.uk/studentfunding/bursariesscholarships/internationalfunding/postgraduate/

or

http://www.keele.ac.uk/studentfunding/bursariesscholarships/



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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. Read more

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

  • key techniques in separation sciences, including liquid and gas chromatography
  • atomic and molecular spectroscopy, such as atomic absorption and emission, NMR and IR
  • analytical technologies applied in process control and solving complex biological problems

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.

Professional recognition

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.

Course structure

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.

Core modules:

  • Quality issues, laboratory accreditation and the analytical approach (15 credits)
  • Separation, detection and online techniques (15 credits)
  • Surface analysis and related techniques (15 credits)
  • Drug detection and analysis (15 credits)
  • Methods for analysis of molecular structure (15 credits)
  • Process analytical technology (15 credits)
  • Professional development (15 credits)
  • Research methods and statistics (15 credits)
  • Research project (60 credits)

Assessment

Assessment methods include written examinations and coursework including

  • problem-solving exercises
  • case studies
  • reports from practical work.

Research project assessment includes a written report and viva voce. 

Employability

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.



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The MSc Pharmaceutical Sciences programme was developed in response to the need for enhanced skills by employees within pharmaceutical research, development or manufacturing. Read more

The MSc Pharmaceutical Sciences programme was developed in response to the need for enhanced skills by employees within pharmaceutical research, development or manufacturing.

The programme will generate graduates with in-depth theoretical knowledge and extensive laboratory skills, allowing students to be involved in many disciplines of pharmaceutical sciences from drug discovery and medicinal chemistry through to product development and manufacture and including pharmaceutical analysis, quality control and quality assurance.

Teaching and learning methods

Delivery on this programme involves a series of lectures, seminars, workshops and lab-based exercises. Many of the lectures on this programme are delivered by leading industrial experts. Problem-based learning and case studies will provide students with experience of team-working that simulates an industrial setting. Students will develop team-working, critical thinking and analytical problem solving abilities which are important in the modern pharmaceutical industry.

Research project

The main part of the programme is a research project that runs over the whole academic year and gives students the opportunity to work with modern research equipment to carry out novel research. Project work will help students enhance practical skills, analytical thinking, time management, communication skills and independence.

Outcomes

The aims of the programme are to:

  • Acquire a sound core knowledge base together with knowledge of a specialist area of pharmaceutical sciences to support current and future developments of pharmaceutical and related sciences
  • Enhance students' critical, analytical, practical and communication skills relevant to the modern, multidisciplinary pharmaceutical industry
  • Develop research skills in terms of: planning, conducting, evaluating and reporting the results of investigations
  • Gain the knowledge and skills necessary to solve a range of pharmaceutical drug development and processing problems
  • Enable students to use and develop advanced theories and develop novel concepts to explain pharmaceutical development and processing data.

Visit the website http://www.gre.ac.uk/pg/engsci/mps

What you'll study

Full time

Students are required to study the following compulsory courses:

Colloids and Structured Materials in Formulations (30 credits)

Drug Discovery and Medicinal Chemistry (30 credits)

English Language Support (for Postgraduate students in the Faculty)

Analytical Methods and QA/QC Principles (30 credits)

MSc Pharmaceutical Sciences Research Project (60 credits)

Modern Pharmaceutical Technologies and Process Engineering (30 credits)

Part time

- Year 1:

Students are required to study the following compulsory courses:

English Language Support (for Postgraduate students in the Faculty)

Analytical Methods and QA/QC Principles (30 credits)

Modern Pharmaceutical Technologies and Process Engineering (30 credits)

- Year 2:

Students are required to study the following compulsory courses.

Colloids and Structured Materials in Formulations (30 credits)

Drug Discovery and Medicinal Chemistry (30 credits)

MSc Pharmaceutical Sciences Research Project (60 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:

- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)

- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

Students are assessed through examinations, coursework and a dissertation.

Career options

Graduates from this programme can pursue careers in the NHS, the pharmaceutical industry or industries manufacturing other health care products.

Find out how to apply here - https://www.gre.ac.uk/study/apply



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