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Masters Degrees (Msc Chemistry)

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Chemistry is the central science enabling a healthy future in a sustainable society. During this master's programme you will learn to take a fundamental approach in finding tailored solutions for complex societal problems in human health and environmental issues. Read more

Chemistry is the central science enabling a healthy future in a sustainable society. During this master's programme you will learn to take a fundamental approach in finding tailored solutions for complex societal problems in human health and environmental issues.

What does this master’s programme entail?

The aim of this two-year programme is to train you as an independent scientist and to develop the necessary skills and proficiency to advance your career. The master’s programme in Chemistry offers you access to cutting edge research. The research is concentrated in two major research areas:

  • Chemical Biology: within this research area you will study fundamental biological and biomedical problems to understand physiological processes at the molecular level and to gather more knowledge on human health and illnesses.
  • Energy & Sustainability: within this research area you will focus on the development of new sources of sustainable energy and the use of storage of energy. For example you will be working on the development of a new generation of catalysts for the production of solar fuels.

Read more about our Chemistry programme.

Why study Chemistry at Leiden University?

  • You can tailor your programme based on your ambitions and interests within the research areas Chemical Biology or Energy & Sustainability.
  • During your programme, you will be part of a multidisciplinary research team of internationally renowned researchers where you will conduct your Master research project.
  • You will receive personal guidance from a mentor of choice, who is a member of one of our international and young research groups.

Find more reasons to choose Chemistry at Leiden University.

Chemistry: the right master’s programme for you?

The programme is open for students with an internationally recognized bachelor’s degree in chemistry or a Bachelor of Science degree with a major in chemistry. Chemistry is the right master’s programme for you if you are interested in fundamental chemistry and applied research. You will be trained for a career in research within or outside academia. You can also choose a specialisation where you combine one year of Chemistry research with one year of training in business, communication or education.

Read more about the entry requirements for Chemistry.



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MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. Read more
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. They are designed to provide advanced knowledge and hands-on training in modern analytical instrumental techniques. Separation science, sensors, and spectroscopic techniques are key elements alongside chemometrics, instrumentation and advanced research project completion. You will have the flexibility to specialise in a chosen field and further advancement to PhD research is available to highly motivated and talented postgraduates.

Visit the website: http://www.ucc.ie/en/ckr03/

Course Details

On completion of this course, you will be able to:

- identify, formulate, analyse and solve problems in the analysis of chemical compounds
- outline fundamental and applied aspects of chemical analysis
- design and carry out a method of pharmaceutical and chemical analysis, including instrumental analysis
- prepare written laboratory reports that provide a description of the experiment, explain the experiment and reasoning clearly, and provide an appropriate conclusion
- communicate effectively with the chemistry, environmental and pharmaceutical communities
- carry out research and method development in chemical, pharmaceutical and environmental analysis
- prepare a written research report in the form of a dissertation

Format

The courses consist of a 12 month full-time intensive programme of lectures, laboratory work on set experiments and a dissertation based on individual research and development in the selected field of modern analytical science, under the supervision of an expert staff member. Part-time students may complete the course over 24 months subject to flexible day release from industry.

Core modules

CM6012 Modern Analytical Techniques, Chemical Data Analysis and GLP (10 credits)
CM6013 Separation Science, Sensors and Process Analytical Technology (10 credits)
CM6014 Materials, Pharmaceutical and Bio-analysis (10 credits)
CM6015 Practice of Analytical Chemistry (10 credits)
CM6026 Industry Led Workshops (5 credits)
CM6027 Taught Postgraduate Transferable Skills Development (5 credits)

Elective modules

EV4002 Environmental Monitoring (10 credits)
PF6301 Biopharmaceuticals: Formulation Design, Secondary Processing and Regulatory Compliance (10 credits)

Research Project Module (30 credits)

CM6020 Research Project and Dissertation in Analytical Chemistry (30 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#analysis

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees. Students also have the opportunity to travel aboard to do their research project. This highlights the international recognition of the course and the close links established between the course and the relevant institutes.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in future careers as PhD researchers, research projects are offered across a broad range of topics.

Careers

The MSc courses aim to provide you with the necessary skill set to develop methods and solve problems as demanded by many industries today (including pharmaceutical, environmental and forensic analytical laboratories). You are also introduced to research and innovation in analytical science.

Many analytical chemists, pharmaceutical chemical analysts and environmental chemical analysts go on to pursue careers in industry, government and forensic laboratories and opportunities for further research often result.

The course sets out to bridge the gap between the current undergraduate degree knowledge and what is relevant and expected by industry. There is a strong emphasis on developing transferable skills and ensuring that the career path for the student is either industry or academically focused. A large percentage of students gain employment in industry after completion of the course, however a number of graduates also decide to progress to international PhD opportunities.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. Read more
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. They are designed to provide advanced knowledge and hands-on training in modern analytical instrumental techniques. Separation science, sensors, and spectroscopic techniques are key elements alongside chemometrics, instrumentation and advanced research project completion. You will have the flexibility to specialise in a chosen field and further advancement to PhD research is available to highly motivated and talented postgraduates.

Visit the website: http://www.ucc.ie/en/ckr04/

Course Details

On completion of this course, you will be able to:

- identify, formulate, analyse and solve problems in the analysis of chemical compounds
- outline fundamental and applied aspects of chemical analysis
- design and carry out a method of pharmaceutical and chemical analysis, including instrumental analysis
- prepare written laboratory reports that provide a description of the experiment, explain the experiment and reasoning clearly, and provide an appropriate conclusion
- communicate effectively with the chemistry, environmental and pharmaceutical communities
- carry out research and method development in chemical, pharmaceutical and environmental analysis
- prepare a written research report in the form of a dissertation

Format

The courses consist of a 12 month full-time intensive programme of lectures, laboratory work on set experiments and a dissertation based on individual research and development in the selected field of modern analytical science, under the supervision of an expert staff member. Part-time students may complete the course over 24 months subject to flexible day release from industry.

Core modules

CM6012 Modern Analytical Techniques, Chemical Data Analysis and GLP (10 credits)
CM6013 Separation Science, Sensors and Process Analytical Technology (10 credits)
CM6014 Materials, Pharmaceutical and Bio-analysis (10 credits)
CM6015 Practice of Analytical Chemistry (10 credits)
CM6027 Industry Led Workshops (5 credits)
CM6027 Taught Postgraduate Transferable Skills Development (5 credits)
EV4002 Environmental Monitoring (10 credits)

Research Project Module (30 credits)

CM6021 Research Project and Dissertation in Environmental Analytical Chemistry (30 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#analysis

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees. Students also have the opportunity to travel aboard to do their research project. This highlights the international recognition of the course and the close links established between the course and the relevant institutes.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in future careers as PhD researchers, research projects are offered across a broad range of topics.

Careers

The MSc courses aim to provide you with the necessary skill set to develop methods and solve problems as demanded by many industries today (including pharmaceutical, environmental and forensic analytical laboratories). You are also introduced to research and innovation in analytical science.

Many analytical chemists, pharmaceutical chemical analysts and environmental chemical analysts go on to pursue careers in industry, government and forensic laboratories and opportunities for further research often result.

The course sets out to bridge the gap between the current undergraduate degree knowledge and what is relevant and expected by industry. There is a strong emphasis on developing transferable skills and ensuring that the career path for the student is either industry or academically focused. A large percentage of students gain employment in industry after completion of the course, however a number of graduates also decide to progress to international PhD opportunities.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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How can I make a flexible and cheap solar cell out of organic molecules? Can I build a car engine on a molecular level? How do I make a colour television that can be folded up?. Read more
How can I make a flexible and cheap solar cell out of organic molecules? Can I build a car engine on a molecular level? How do I make a colour television that can be folded up?

You will encounter such questions in the Master's degree programme in Chemistry at the University of Groningen.

The programme is embedded in an internationally respected research environment; it is related to the Zernike Institute of Advanced Materials and to the Stratingh Institute. Both are officially recognized as national centres of leading research in materials science.

With a cross-disciplinary approach, this programme will study the following fields of chemistry:

- Molecular Science
This area develops the understanding of molecular aspects and applies it to the fields of nanotechnology, supramolecular chemistry, synthetic chemistry, catalysis and the chemistry of life sciences.

- Chemical Physics
This field studies the physical and chemical properties of atoms, molecules and condensed matter through experimental techniques and theoretical methods. You can choose between theoretical chemistry and solid state chemistry.

- Polymer Science
This domain helps you to gain a deeper understanding of the physical and chemical structure and properties of polymer. It focuses on the development of thin films, surfaces and biomaterials.

Why in Groningen?

- Research programme of chemistry is embedded in leading research institute in Materials Science
- Chemistry field in Groningen has CHE Excellence Label
- Cross-disciplinary approach

Job perspectives

This degree programme in Chemistry is primarily meant for students who want to become researchers. Some graduates will, after obtaining their Master's degree, continue with a PhD project, either in Groningen or elsewhere. Some find jobs all over Europe in major companies, including DSM, Akzo Nobel, Corus or Philips.

Nevertheless, many chemists who are trained as researchers find jobs that are less research-oriented. This is because the programme also pays attention to communication skills, teamwork, presentation techniques and IT skills. During their training as researchers in chemistry, students develop general competences that make them highly versatile and widely employable. In practice chemistry graduates can be found in consulting agencies, commercial functions, product research and development, product management or teaching.

Job examples

- PhD research project
- Work for a major multinational such as Akzo Nobel or Philps
- Consulting agencies
- Product management or commercial positions

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MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. Read more
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. They are designed to provide advanced knowledge and hands-on training in modern analytical instrumental techniques. Separation science, sensors, and spectroscopic techniques are key elements alongside chemometrics, instrumentation and advanced research project completion. You will have the flexibility to specialise in a chosen field and further advancement to PhD research is available to highly motivated and talented postgraduates.

Visit the website: http://www.ucc.ie/en/ckr02/

Course Details

On completion of this course, you will be able to:

- identify, formulate, analyse and solve problems in the analysis of chemical compounds
- outline fundamental and applied aspects of chemical analysis
- design and carry out a method of pharmaceutical and chemical analysis, including instrumental analysis
- prepare written laboratory reports that provide a description of the experiment, explain the experiment and reasoning clearly, and provide an appropriate conclusion
- communicate effectively with the chemistry, environmental and pharmaceutical communities
- carry out research and method development in chemical, pharmaceutical and environmental analysis
- prepare a written research report in the form of a dissertation

Format

The courses consist of a 12 month full-time intensive programme of lectures, laboratory work on set experiments and a dissertation based on individual research and development in the selected field of modern analytical science, under the supervision of an expert staff member. Part-time students may complete the course over 24 months subject to flexible day release from industry.

Core modules

CM6012 Modern Analytical Techniques, Chemical Data Analysis and GLP (10 credits)
CM6013 Separation Science, Sensors and Process Analytical Technology (10 credits)
CM6014 Materials, Pharmaceutical and Bio-analysis (10 credits)
CM6015 Practice of Analytical Chemistry (10 credits)
CM6027 Industry Led Workshops (5 credits)
CM6027 Taught Postgraduate Transferable Skills Development (5 credits)
PF6301 Biopharmaceuticals: Formulation Design, Secondary Processing and Regulatory Compliance (10 credits) or

Research Project Nodule (30 credits)

CM6022 Research Project and Dissertation in Pharmaceutical Analysis (30 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#analysis

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees. Students also have the opportunity to travel aboard to do their research project. This highlights the international recognition of the course and the close links established between the course and the relevant institutes.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in future careers as PhD researchers, research projects are offered across a broad range of topics.

Careers

The MSc courses aim to provide you with the necessary skill set to develop methods and solve problems as demanded by many industries today (including pharmaceutical, environmental and forensic analytical laboratories). You are also introduced to research and innovation in analytical science.

Many analytical chemists, pharmaceutical chemical analysts and environmental chemical analysts go on to pursue careers in industry, government and forensic laboratories and opportunities for further research often result.

The course sets out to bridge the gap between the current undergraduate degree knowledge and what is relevant and expected by industry. There is a strong emphasis on developing transferable skills and ensuring that the career path for the student is either industry or academically focused. A large percentage of students gain employment in industry after completion of the course, however a number of graduates also decide to progress to international PhD opportunities.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows. Read more
Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows.

We make every attempt to allocate you to a supervisor directly in your field of interest, consistent with available funding and staff loading. When you apply, please give specific indications of your research interest – including, where appropriate, the member(s) of staff you wish to work with – and whether you are applying for a studentship or propose to be self-funded.

Visit the website https://www.kent.ac.uk/courses/postgraduate/18/chemistry

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Research areas

- Applied Optics Group (AOG):

Optical sensors
This activity largely covers research into the fundamental properties of guided wave interferometers, and their application in fields ranging from monitoring bridge structures to diagnostic procedures in medicine.

Biomedical imaging/Optical coherence tomography (OCT)
OCT is a relatively new technique which can provide very high-resolution images of tissue, and which has a major application in imaging the human eye. We are investigating different time domain and spectral domain OCT configurations.

The Group is developing systems in collaboration with a variety of different national and international institutions to extend the OCT capabilities from systems dedicated to eye imaging to systems for endoscopy, imaging skin and tooth caries. Distinctively, the OCT systems developed at Kent can provide both transverse and longitudinal images from the tissue, along with a confocal image, useful in associating the easy to interpret en-face view with the more traditional OCT cross section views.

The Group also conducts research on coherence gated wavefront sensors and multiple path interferometry, that extend the hardware technology of OCT to imaging with reduced aberrations and to sensing applications of optical time domain reflectometry.

- Forensic Imaging Group (FIG):

The research of the forensic imaging team is primarily applied, focusing on mathematical and computational techniques and employing a wide variety of image processing and analysis methods for applications in modern forensic science. The Group has attracted approximately £850,000 of research funding in the last five years, from several academic, industrial and commercial organisations in the UK and the US. The Group also collaborates closely with the Forensic Psychology Group of the Open University.

Current active research projects include:

- the development of high-quality, fast facial composite systems based on evolutionary algorithms and statistical models of human facial appearance

- interactive, evolutionary search methods and evolutionary design

- statistically rigorous ageing of photo-quality images of the human face (for tracing and identifying missing persons)

- real and pseudo 3D models for modelling and analysis of the human face

- generating ‘mathematically fair’ virtual line-ups for suspect identification.

- Functional Materials Group (FMG):
The research in FMG is concerned with synthesis and characterisation of functional materials, as exemplified by materials with useful optical, catalytic, or electronic properties, and with an
emerging theme in biomaterials. The Group also uses computer modelling studies to augment
experimental work. The research covers the following main areas:

- Amorphous and nanostructured solids
- Soft functional material
- Theory and modelling of materials

- Centre for Astrophysics and Planetary Science (CAPS):
The group’s research focuses on observational and modelling programmes in star formation, planetary science and early solar system bodies, galactic astronomy and astrobiology. We gain data from the largest telescopes in the world and in space, such as ESO’s Very Large Telescope, the New Technology Telescope, the Spitzer Space Telescope and the Herschel Space Observatory. We also use our in-house facilities which include a two-stage light gas gun for impact studies.

Staff are involved in a wide range of international collaborative research projects. Areas of particular interest include: star formation, extragalactic astronomy, solar system science and instrumentation development.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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About the course. This 12-month course is ideal if you want to develop skills in a range of areas. It includes project work and an introduction to research-level theory. Read more

About the course

This 12-month course is ideal if you want to develop skills in a range of areas. It includes project work and an introduction to research-level theory. You’ll take taught classes for the first two semesters. In the third semester, you’ll work on an extended research project of your own.

Employers value this kind of experience. By the time you graduate, you’ll have proved you can work within a research group, organise your own research, complete a project and communicate your findings.

Your future

Our graduates are highly valued in the chemical and pharmaceutical sector. They work all over the world for companies including AkzoNobel, Amgen, AstraZeneca, Corus, Dow Chemicals, GSK, Smith and Nephew and Syngenta. Many move on to PhD study, then careers in research or teaching.

Chemistry is vital to the way we live. It helps power industry and drive economic growth. Polymer science contributes to advances in everything from biology to engineering and medicine. As a researcher in industry or academia you could be involved in work that improves lives and changes the way we see the world.

Learn from world-class research

Top-quality research directly informs our teaching. The 2014 Research Excellence Framework (REF) rates 98 per cent of our work world-class or internationally excellent. You’ll learn about the very latest developments from experts in theory and spectroscopy, synthesis, analytical science, chemical biology and materials.

Labs, equipment and training

We’ll train you to use our modern analytical instrumentation. We have NMR spectroscopy, mass spectrometry, x-ray crystallography, polymer characterisation methods and advanced microscopy. We also have a team of technicians to assist with spectroscopic services. There are labs for molecular biology, protein chemistry, polymer/colloid synthesis and materials characterisation.

Core modules

You’ll carry out two smaller laboratory projects prior to starting your main research project, to develop practical and scientific communication skill. You also undertake a Research and Presentation Skills module to further develop the higher level skills needed for research.

Examples of optional modules

Lectured modules consist of a wide range of segments, spanning the breadth of chemistry, from which you can choose, to tailor your MSc to your strengths and interests.

Teaching and assessment

We use a mixture of lectures, laboratory practicals, workshops and individual research projects. You may tailor the area of your research project to your particular interests. Assessment of taught modules is through examination, laboratory reports and coursework. Assessment of the project is through a 15,000-word dissertation, oral presentation and viva, as well as assessed performance during the project.



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The Master of Science (M.Sc.) program offers students in a wide range of disciplines the opportunity to earn a master’s degree by writing a Thesis and successfully completing a limited number of courses. Read more
The Master of Science (M.Sc.) program offers students in a wide range of disciplines the opportunity to earn a master’s degree by writing a Thesis and successfully completing a limited number of courses. The number and details of the courses are determined within the first semester of the student's program.

Students may complete their degrees in either a full- or part-time capacity. Full-time students complete a 24-month program while part-time students complete a 48-month program. Part-time students will normally complete all required course work in the first 24 months, with the subsequent months committed to continued research and production of the Thesis.

Although degrees are awarded in specific disciplines, the program is administered centrally by the School of Graduate Studies, rather than by individual departments or Faculties.

Course detail

Graduate degrees traditionally have been awarded for the successful completion of a satisfactory thesis. The thesis route expresses the fundamental tradition of academic scholarship. It also relates to the University’s undergraduate programs, because the creation of a thesis in any discipline calls for a range of skills which are central to the liberal education tradition, including analysis and synthesis of ideas, empirical investigations, the construction and articulation of arguments, and writing skills.

Because of the nature of the M.Sc. program, the thesis forms the central requirement of the program. At the master’s level, a thesis involves close collaboration between supervisor and student. Consequently, it is necessary for a candidate to establish contact with potential supervisors prior to application for admission. Candidates seeking potential supervisors should contact either the relevant academic department or the School of Graduate Studies.

Why study at the University of Lethbridge?

As a graduate student at the University of Lethbridge, you’ll find yourself at the centre of a student-focused environment that nurtures innovation, critical thinking and creativity.

The University of Lethbridge is one of Canada’s top-ranked universities and leading research institutions.

At the foundation of our graduate programs is a multidisciplinary and personalized experience. A collaborative environment is encouraged between faculty and students. This means you have flexibility in decisions regarding the research and learning path you take.

At the U of L, we are committed to helping every one of our students thrive. From aiding with financial support to one-on-one mentorship to individualized career advice, you’ll find support every step of the way.

When you graduate, you will have the confidence you need to succeed in whatever you do, whether that means pursuing further education, teaching in an academic setting or establishing a professional career.

We’re here to help as you find the answers to your questions. As Alberta’s Destination University, the U of L gives you room to think, create and explore, providing a university experience unlike any other.

How to apply

In order to apply, you will need to provide the following documentation:

• Academic Transcripts
• Curriculum Vitae
• Three Letters of Reference
• Letter of Intent
• English Language Proficiency (ELP)

All applications and supporting documents must be provided through the online portal: http://www.uleth.ca/graduate-studies/master-science/apply

Co-operative Education & Internships Option

The Co-operative Education/Internship Option is available to students for the Master of Arts (MA) and Master of Science (MSc) programs. Co-operative education is an educational model that formally integrates academic study at the master’s level with relevant, paid work experience in appropriate employment fields such as government, institutions, and industry. The University, the employer, and the student are in partnership to ensure an enriching experience toward the student's professional development.

For more information, visit the website: https://www.uleth.ca/future-student/graduate-studies/apply

Funding

Find information on Scholarships here http://www.uleth.ca/graduate-studies/award-opportunities

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This one-year taught programme offers the opportunity to study Chemistry at an advanced level, covering both the traditional core areas of chemistry, as well as more specialist courses aligned to the research groupings of the department. Read more

This one-year taught programme offers the opportunity to study Chemistry at an advanced level, covering both the traditional core areas of chemistry, as well as more specialist courses aligned to the research groupings of the department. The course provides opportunities for you to develop and demonstrate advanced knowledge, understanding, and practical/research skills.

Introducing your course

Would you like to upgrade your bachelor’s degree to a master’s and gain access to a chemistry career in industry or research? Join the MSc Chemistry and develop your lab and theoretical skills. Specialise in inorganic and materials, organic or physical chemistry, or maintain a broad portfolio, for a more detailed description of the available pathways, click the Pathways tab. Courses are available in synthesis, advanced structural, analytical and spectroscopic techniques, materials chemistry, modelling, biological and medicinal chemistry, and electrochemistry.

Overview

The MSc Chemistry course combines the opportunity for students to take modules from a wide range of cutting-edge fields in chemistry with sessions on practical, technical skills, and scientific writing, communication and presentation and a three month summer project supervised by one of Southampton’s expert academics. The course aims to:

  • Provide you with advanced knowledge the core areas of chemistry and your chosen area of specialisation;
  • Provide you with an opportunity to work in state-of-the-art laboratories dedicated both to education and also to research;
  • Develop your knowledge and research skills applicable to a career in chemistry, particularly in research project driven roles.

Find out more about the course visit the programme specification

Career Opportunities

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.

Pathways

The following information summarises the typical pathways offered when choosing the MSc Chemistry degree programme:

Organic Chemistry

This area focuses on synthetic organic chemistry, total synthesis, synthetic methodology, reaction mechanism, organocatalysis, organofluorine chemistry, photochemistry and carbohydrate chemistry, both towards the synthesis of bioactive compounds and organic materials, and includes the study of organic reactions under flow conditions. This pathway offers the opportunity to specialise in the following areas

  • organic synthesis
  • medicinal chemistry
  • bio-organic chemistry

This pathway consists of advanced postgraduate courses in synthetic reaction mechanisms and is best suited to students who already have a thorough BSc level grounding in aspects of nomenclature, stereochemistry, reaction mechanisms.

Inorganic chemistry and materials

This area focuses on the synthesis of functional inorganic, solid-state and supramolecular materials and assemblies to address key challenges in energy, sustainability, healthcare and diagnostics and the deposition of nanostructured materials. This pathway will give you the opportunity to specialise in the following areas

  • inorganic synthesis
  • metal organic framework
  • supramolecular chemistry
  • zeolites
  • catalysis
  • materials characterisation

This pathway is best suited to students who already have a thorough BSc level grounding in the fundamentals and applications of inorganic chemisry.

Physical chemistry

This pathway is best suited to students who already have a thorough BSc level grounding in the fundamentals and applications of inorganic chemistry. This area covers a wide range of fundamental and applied topics. This pathway will give you the opportunity to specialise in the following areas

  • computational chemistry
  • spectroscopy
  • electrochemistry
  • surface science
  • magnetic resonance

This pathway is best suited to students who already have a thorough BSc level grounding in the fundamentals and applications of physical chemistry, in particular quantum chemistry, spectroscopy, thermodynamics and kinetics

General chemistry

You can choose to further your knowledge across a blend of advanced courses from organic, inorganic and/or physical chemistry (any combination). This pathway is suited to those wishing to develop an interdisciplinary expertise. If you choose this pathway you should already have a sound BSc-level grounding in the areas of chemistry in which you intend to choose modules (see other boxes).



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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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These Royal Society of Chemistry accredited courses enable you to develop and further your knowledge of chemistry from our extensive range of modules. Read more

These Royal Society of Chemistry accredited courses enable you to develop and further your knowledge of chemistry from our extensive range of modules. You can expand your interests by completing a research project to allow you to match it to your interests and career aspirations.

The MRes Chemistry course is divided into a taught element (60 credit points) and a laboratory-based research project (120 credit points). You will complete the extended research project in one of our highly rated research teams.

The MSc Chemistry course is divided into 60 credit point taught modules and the research project is worth 60 credit points. The course covers a diverse range of topical chemical areas and includes a research lead project. Students can take the MSc Chemistry route with one year full-time study, or alternatively you can also undertake one year full-time study plus a year long work placement for the MSc Chemistry (Professional Practice) route.

Graduates from this course have gone on to work in sectors such as:

  • pharmaceuticals
  • liquid crystals
  • defence
  • advanced materials engineering

Modules

  • Research methods and independent study
  • Research project
  • Organic synthesis and characterisation of biologically active compounds
  • Drug detection, analysis, and screening
  • Inorganic chemistry beyond the molecule
  • Physical properties of solid-state and nano-composite materials
  • Chemotherapeutics

COME VISIT US ON OUR NEXT OPEN DAY!

Visit us on campus throughout the year, find and register for our next open event on http://www.ntu.ac.uk/pgevents.



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From the discovery of new energy sources to the design of enzymes to produce new medicines, most cutting-edge research requires knowledge of molecular processes. Read more

From the discovery of new energy sources to the design of enzymes to produce new medicines, most cutting-edge research requires knowledge of molecular processes. The two year MSc Molecular Life Sciences study programme focuses on the molecular aspects within the fields of nutrition, health, nature and the living environment. 

This MSc programme consists of four specialisations that are based upon a unique combination of three main disciplines: biology, chemistry and physics. Research is an important part of the programme and there is a wide variety of research subjects to choose from in order to carry out your thesis and internship during your second year. The combination of chemistry, physics and biology is especially appealing to many employers.

Programme summary

Discoveries through chemistry are based on research conducted by motivated people. Furthermore, a combination of disciplines is needed to be at the forefront of the field of science. Wageningen University offers all that and more. Wageningen University graduates are able to conduct high level research and perform in an interdisciplinary environment. It is here that theory is put to practice and it will give you a strong background for employment in industry, government or universities.

On the programme of Molecular Life Sciences page you can find the general outline of the programme and more detailed information about courses, theses and internships.

Specialisations

Within the master's programme you can choose one of the following Specialisations to meet your personal interests.

Your future career

The labour market for Molecular Life Sciences graduates is still looking good: the large majority finds a job within a few months. About 80% starts a PhD research. In the Netherlands you get a salary for doing a PhD; in Dutch this job is called AIO = "assistant in opleiding". After finishing your PhD you get the Dutch Doctor title; you are allowed to put Dr. in front of your name. 

Read more about career perspectives and opportunities after finishing the programme.

Related programmes:

MSc Biotechnology 

MSc Food Technology 

MSc Bioinformatics

MSc Nutrition and Health

MSc Plant Biotechnology

MSc Biology



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This course aims to. extend your comprehension of key chemical concepts and so provide you with an in-depth understanding of specialised areas of chemistry. Read more

This course aims to:

  • extend your comprehension of key chemical concepts and so provide you with an in-depth understanding of specialised areas of chemistry.
  • provide you with the ability to plan and carry out experiments independently and assess the significance of outcomes.
  • develop your ability to adapt and apply methodology to the solution of unfamiliar types of problems.
  • instil a critical awareness of advances at the forefront of the chemical sciences.
  • prepare you effectively for professional employment or research degrees in the chemical sciences.

What happens on the course?

You will build upon your previous undergraduate studies to develop an in depth knowledge of selected aspects of advanced cutting edge topics in chemistry.

MSc Chemistry Level 7 Programme (all modules are 20 credits unless otherwise specified)

*Advanced Topics in Organic Chemistry

*Advanced Topics in Inorganic Chemistry

*Advanced Topics in Physical Chemistry

*Advanced Topics in Chemical Analysis

MSc Research Project (120 credits)

*Select three from these four core option modules.

Why Wolverhampton?

  • Chemistry, and related science students, have excellent job prospects or go on to further study and/or research.
  • Our existing chemistry-related programmes, BSc Biochemistry and BSc Pharmaceutical Science have excellent student satisfaction rates (95% respectively) and we anticipate that our new Chemistry developments will achieve similar results.
  • Our compliment of existing, experienced staff (including several research professors), will expand as the course develops. We recently moved into our new £25m “state of the art” science facility. The new laboratory facilities were accompanied by generous investment in a range of new teaching, research and consultancy equipment.
  • Our chemistry-based subjects have maintained links with several local/regional chemical companies and we’ve had many successful collaborative research and development knowledge transfer programmes (KTP’s), our most recent was independently rated as “outstanding”, the highest grading possible. We shall continue to build upon our existing and expanding capacity to develop links with local employers.

Career path

The UK’s chemical industry is one of the leading industrial contributors to the national economy and there are many opportunities to apply chemical knowledge, principles and skills to a successful career in the chemistry, pharmaceutical science, chemical engineering or other chemistry-related disciplines. “Chemistry will underpin economic growth, say industry leaders”, it was reported in the Royal Society of Chemistry (RSC) publication, Chemistry World, on the “Strategy for delivering chemistry-fuelled growth of the UK economy”. Currently the Chemistry-using industries contribute ~£195bn to the UK economy with approximately £10bn coming from chemical manufacturing and £9bn from pharmaceutical manufacturing. The areas of chemical manufacture, process technology, product development and application, and formulation skills are key areas of these chemical sciences. In chemicals (including pharmaceuticals) 95.6% of UK companies are SME’s employing 42% of the total workforce and account for 29% of turnover.

If you choose not to go into the chemical industry there are still extensive career opportunities in teaching and academic research

What skills will you gain?

You will have evidenced good practical skills, be literate, numerate, have high level of IT skills and be capable of logical, scientific, critical thinking and problem solving. You will have developed a great deal of autonomous decision making and research capability and you will be able to evidence a range of professional, personal transferable skills and be well versed with the concept of continuous professional development. These skills will make you well equipped for the workplace, be it in a chemistry environment or the wider world of work in general, or for further research if you so choose.

Who accredits this course?

We are currently working with the RSC to achieve accreditation of our new BSc (Hons) Chemistry degree. This will be an on-going process over the first two years of the course, which started in September 2014, and will mean that our first cohort of graduates in July 2017 will be eligible for Associate Membership of the RSC shortly thereafter. We will look towards accreditation of our MSc courses in the foreseeable future.



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Are you interested in working on solutions for environmental issues like water scarcity and quality, soil degradation, food supply, loss of biodiversity… Read more

Are you interested in working on solutions for environmental issues like water scarcity and quality, soil degradation, food supply, loss of biodiversity, vulnerability to severe weather and climate change? Join the master's Earth & Environment in Wageningen to help the next generations of scientists to find solutions for these issues confronting the way we look after our planet, now and in the future!

Study programme

During the two-year master programme, you become a well-rounded specialist in the fields of (a) hydrology and water resources; (b) meteorology and air quality; (c) biological and chemical aspects of soil and water; or (d) soil geography and earth surface dynamics. Furthermore, you also gain a broad view of the interactions in the critical zone where the different spheres meet. Subjects studied range from micro to global scale; they are closely related to the innovative research and applications of ten leading research groups. Read more about the Background of the programme.

Specialisations

Within the master's programme you can choose one of the following Specialisations to meet your personal interests.

Student experiences

The best way to get to know a place is by getting to know the people. Students share their experiences with you about the master's programme and student life in Wageningen on the page student experiences.

Future career

Graduates from this programme are well equipped with the knowledge and skills to continue their academic training as a PhD student, or to start a career as a scientific professional at universities, research institutes and consultancies. Depending on their specialization, graduates may take up positions as meteorologists, hydrologists, water quality scientists or soil scientists in the public or private sector. Read more about career perspectives and opportunities after finishing the programme.

Related programmes:

MSc Environmental Sciences

MSc Management, Economics and Consumer Studies

MSc Biology

MSc Climate Studies

MSc International Land and Water Management

MSc Plant Sciences.



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Chemistry research at Swansea University is vibrant and covers a wide range of research areas and interests, and will be growing at a fast pace over the next 2-3 years. Read more

Chemistry research at Swansea University is vibrant and covers a wide range of research areas and interests, and will be growing at a fast pace over the next 2-3 years. It is focused on 4 themes: Energy, Health, New and Advanced Molecules and Materials, and Water and the Environment. These research initiatives transcend the traditional discipline boundaries, integrate the core areas of inorganic, organic, physical and analytical chemistries and intersect with other scientific disciplines, engineering and medicine.

Key Features of MSc by Research in Chemistry

The new Department of Chemistry has excellent, purpose-built modern laboratories and has access to a diverse type of laboratories research infrastructures to develop its research. For example, high-quality, high-impact chemistry research is already taking place in World Class Centres based in Swansea such as The Centre for NanoHealthThe Institute of Mass SpectrometryThe Institute of Life SciencesThe Energy Safety Research InstituteMultidisciplinary Nanotechnology CentreThe Centre for Water Advanced Technologies and Environmental Research and The Materials Research Centre. The integration of the new Chemistry Department with Engineering, the Medical School and other departments in the College of Science provides an environment of research excellence and allows our chemistry students and research staff to invent, innovate and develop products in a way that is best suited to research in the 21st century and the need to generate disruptive, step-change advances with impact on current global challenges.

Department of Chemistry Research Group:

Energy: One of the key areas where advances in chemistry will be needed is in providing solutions to the global energy challenge. Chemistry research in Swansea University is participating in fundamental and applied research initiatives focused on: 

  • Conversion and storage of electrochemical and solar energy 
  • Capture, storage, and chemical conversion of carbon dioxide 
  • Development of new molecules, materials and nanotechnologies related to energy production, conversion, transport, and storage and their incorporation into devices.
  • Electron transfer reactions
  • Development and implementation of advanced characterisation techniques for acquiring in-depth understanding of photovoltaics, batteries and processes, which enable improvement in performance.
  • Routes for rapid processing and manufacturing at scale.
  • Optimized utilization of fossil energy 
  • Hydrogen as an energy vector

Health: Chemistry research provides new routes to more effective, cheaper and less toxic therapies and to non-invasive disease detection and diagnosis tools – a requirement to transform the entire landscape of drug discovery, development and healthcare, which is unaffordable and needs to benefit more patients. The chemistry research laboratories for this theme are adjacent to Swansea Medical School – which ranked 1st in the UK for research environment, and 2nd for overall research quality in the REF 2014.

Current chemistry research includes: 

  • Nanoparticle-based drug delivery
  • Antibody-drug conjugates
  • Nanoparticle-enabled chemoimmunotherapy and immunoengineering
  • Chemical systems for cell and tissue imaging
  • Stimuli-responsive and adaptive systems for drug activation and release
  • Construction of biofunctional artificial motor systems
  • Bioelectronic medicines and sensors
  • Mass spectrometric analysis of clinical samples, lipids, proteins and natural products
  • Pharmaceutical analysis and analytical technologies for medical/chemical analysis
  • Magnetic nanoparticles for magnetic resonance and multimodal imaging
  • Silicon processing, microfabrication and microelectronic fabrication
  • Self-assembly of colloids at interfaces and the use of colloids and nanoparticles dispersed in complex biological fluids
  • Microneedles for transdermal blood sampling and drug delivery
  • Biosensors – surface functionalization, fluorescence detection, electrochemistry, chemical sensing and lab-on-a-chip
  • Microfluidics and MEMS 
  • Studying structure, dynamics and function of enzymes as a route to understanding and controlling nature's chemistry
  • Natural products biosynthesis (particularly involving compounds with antibiotic, antifungal, or other medically relevant activity).

New and Advanced Molecules and Materials: There is major interest in synthesing, designing and controllling molecular and macromolecular assemblies at multiple length scales. In Swansea this research involves use of: 

  • Soft condensed matter including surfactants, colloids and polymers
  • Synthesis and characterization of transition metal-based and organic dye molecules for application in dye sensitized solar cells
  • Materials for efficient multiphoton absorption and upconversion 
  • Natural products
  • Molecular recognition and self-assembly to generate novel materials
  • Continuous flow synthesis
  • Molecular scale and nanoscale characterisation of ordered and amorphous assemblies
  • Development of nanocomposites comprising metallic nanoparticles and hydrogels
  • Autonomous and remotely guided micro- and nanoscale objects
  • Studying and tuning the characteristics of nanomaterials and biomaterials 

Water and the Environment: Chemistry at Swansea university has a strong profile in the development of analytical tools for measuring environmental impact, environmental impact assessment of polymer-based materials through their lifetime (including the effects of recycling and biopolymers), technologies for the efficient removal of environmentally harmful materials (and thus reduced emissions per output of discharge), membrane technologies and new methodologies for desalination, and for dewatering and killing pathogens for sanitation applications and the use of new molecules and materials for photocatalytic water splitting and development of self-propelled micro and nanomotor systems for environmental remediation. In collaboration with the Biocontrol and Natural Products (BANP) group in the Department of Biosciences, there is also growing research interest around the characterisation and application of natural products, in particular those derived from fungi and microalgae, to provide therapeutics and nutraceuticals and to act as agents for biocontrol and bioremediation.

Facilities in the Department of Chemistry

Our new state-of-the-art teaching laboratories are being built as part of a multi-million pound investment to create a chemistry hub for the high quality Chemical Sciences research being carried out across the Colleges of Science, Engineering and Medicine.

Careers for Chemistry Graduates

A chemistry qualification opens the door to a wide range of careers options, both in and out of the lab. There are endless interesting and rewarding science-based jobs available – these can be in research, outdoors or in other industries you might not have thought of. Please visit the Royal Society of Chemistry website for details. 

Find out more about the huge range of jobs in chemistry by exploring the job profiles on the Royal Society of Chemistry website (eg Cancer Researcher, Flavourist & Innovation Director, Chief Chemist, Sustainability Manager, Fragrance Chemist, Household Goods Senior Scientist, Analytical Scientist, and many more).



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