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Masters Degrees (Physical Chemistry)

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Learning how to make discoveries that will contribute to a better understanding of the fundamental behaviour of molecules and materials. Read more
Learning how to make discoveries that will contribute to a better understanding of the fundamental behaviour of molecules and materials.

Most chemical research involves synthesising and characterising new molecules. So basically, a trial and error system. This specialisation goes one step further: it aims at fundamentally unravelling the properties of molecules and materials. How do pharmaceutical molecules arrange in different forms and how does this affect their efficiency as a drug? And in what way does the molecular structure of a polymer influence the mechanical strength of plastics? We try to find the answers by developing theory and applying physical set-ups for advanced spectroscopic experiments, such as high magnetic fields, free-electron lasers and nuclear magnetic resonance.

Thanks to all our research facilities being located on the Radboud campus, you’ll be able to perform your research with advanced spectroscopic methods. You get to choose the focus of your research. Some students work on biomolecules while others prefer for example solar cells, plastics or hydrogels. It’s even possible to specialise in the development of new technology.

Studying at the interface between physics and chemistry means collaborating and communicating with people from different scientific backgrounds. Moreover, you’ll be trained to work with large-scale facilities and complex devices. These qualities will be useful in both research and company environments. Jobs are plentiful, as almost all industrial processes involve physical chemistry.

See the website http://www.ru.nl/masters/science/physical

Why study Physical Chemistry at Radboud University?

- Unlike at (many) other universities, all physical and chemical Material Science departments are combined in one institute: the Institute for Molecules and Materials (IMM). Therefore, collaborating is second nature to us.
- Radboud University hosts a large number of advanced spectroscopic facilities. As a Master’s student, you’ll get the chance to work with devices that are unique in Europe and even some that cannot be found anywhere else in the world.
- We have multiple collaborations with companies that, for example, analyse complex mixtures such as biofuels, characterising hydrogels, and develop anti-caking agents for rock-salt.
- During the courses and internship(s), you’ll meet a wide group of researchers in a small-scale and personal setting: a good starting point for your future network.

Career prospects

About 75 percent of our students start their career with a PhD position. However, eventually most students end up as researchers, policy advisors, consultants or managers in companies and governmental organisations. Whatever job you aspire, you can certainly make use of the fact that you have learned to:

Solve complex problems in a structured way
Understand the professional jargon of different disciplines and work in a multidisciplinary environment
Use mathematical computer tools
Perform measurements with complex research equipment
Graduates have found jobs at for example:
- ETH Zurich
- MIT
- UC Berkeley
- ASML
- AkzoNobel
- DSM
- Shell
- Unilever
- Various spin-off companies, like Noviotech and Spinnovation

Our approach to this field

Physical Chemistry at Radboud University goes beyond the characterisation of molecules and materials. We focus on fundamental knowledge: What do spectroscopic measurements really mean? And how can we explain the behaviour of certain molecules or materials?

- Advanced spectroscopy
Radboud University hosts a large range of advanced spectroscopic facilities. Think of the High Field Magnetic Laboratory, FELIX laboratory for free-electron lasers, NMR facility, scanning probe lab, etc. As a Master’s student in Physical Chemistry, you’ll get an overview of all these different methods, and you’ll be able to apply your knowledge as a member of a laboratory. Some of our students choose to focus on the development of new scientific methods.

- Bridging the gap between chemistry and physics
We believe in knowledge transfer between chemists and physicists. That’s why in Nijmegen all material research is combined in one institute: the Institute for Molecules and Materials (IMM). During your Master’s, you’ll experience this interplay in the lectures and internships. Once graduated, you’ll be able to understand the vernacular of both disciplines and in that way bridge the gap between chemistry and physics.

See the website http://www.ru.nl/masters/science/physical

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This MSc reflects the huge breadth and diversity in research and the application of physical chemistry and physical chemistry techniques, providing you with training and study in the concepts and techniques of physical chemistry, tailored to your own particular research interests. Read more
This MSc reflects the huge breadth and diversity in research and the application of physical chemistry and physical chemistry techniques, providing you with training and study in the concepts and techniques of physical chemistry, tailored to your own particular research interests.

This full-time postgraduate degree comprises tutorials, lectures and six months of intensive practical work, before undertaking a five-month independent research project. As well as developing your core knowledge of physical chemistry, you will learn how to critically analyse research data and research publications, and how to communicate scientific concepts and processes. Your research dissertation will be a major part of the course, enabling you to draw on the academic and applied research conducted at Leicester, in topics such as electrochemistry, interfacial properties, materials, atmospheric chemistry, gas-phase spectroscopy and microscopy.

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The Molecular Life Sciences programme focuses on the molecular aspects of the fields of nutrition, health, nature and the living environment and works in close coordination with colleagues from different disciplines. Read more

MSc Molecular Life Sciences

The Molecular Life Sciences programme focuses on the molecular aspects of the fields of nutrition, health, nature and the living environment and works in close coordination with colleagues from different disciplines.

Programme summary

The Molecular Life Sciences programme focuses on molecules and their properties. It seeks to discover relationships between the physical and chemical properties of molecules, particularly the role of complex molecules in living systems. It is an interdisciplinary programme that combines chemistry, physics and biology. The aim of the programme is to enable students to conduct independent research at the interface of chemistry, biology and physics, or in an applied field such as medicine, the environment, food sciences or (bio) nanotechnology. The programme is tailormade and thesis-oriented, with the thesis being the culmination of the study.

Specialisations

Biological Chemistry
By combining the principles of chemistry, biochemistry, molecular biology, cell biology, microbiology, genetics and bioinformatics, this specialisation enables students to contribute new insights to the life sciences. Increasingly complex areas are studied, such as the molecular regulation of growth and cell differentiation, gene control during development and disease, and the transfer of genetic traits. Another important field is enzymology where enzyme mechanisms are studied with the aim of understanding and modifying their properties to make new compounds or biological membranes.

Physical Chemistry
This specialisation uses the most advanced technologies to focus on the chemical and physical properties of molecules and their behaviour in chemical and biochemical processes. The processes in nature are used as models for studying and synthesising new compounds with interesting chemical or physical properties for applications such as LCDs, biosensors or food science. Students can major in the fields of biophysics, organic chemistry or physical chemistry and colloid science.

Biomedical Research
This specialisation equips graduates with key skills in the natural sciences and enables them to use these skills as part of an integrated approach. Many recent breakthroughs in biomedical research have taken place at the interface between chemistry, biology and physics, so it is logical that many of our graduates enter careers in biomedical research. The explicit aim of this specialisation is to prepare students for careers at a medical research institute, academic hospital or a company in the pharmaceutical industry. As a result, students also complete their internships at such locations.

Physical Biology
Students in this specialisation learn to view biomolecules from a physical point of view. They use techniques in biophysics, physical chemistry, microspectroscopy and magnetic resonance (MRI) to contribute to areas such as cell-cell communication, transformation of light into chemical energy, and protein interactions. Students can major in fields such as biochemistry, biophysics, microbiology, molecular biology, plant physiology, physical chemistry and colloid science.

Your future career

By combining the power of chemistry, physics and biology, graduates are able to make a significant contribution to fundamental and/or applied research in fields such as (bio) nanotechnology, biotechnology, environmental research, biomedical research, nutrition and the food sciences. Our graduates enter careers at universities, research institutes and industrial laboratories. The first job for many of our graduates is a four year PhD project at a university or research institute. This is not only an excellent preparation for a research career, but it also prepares you for management positions. Others become science journalists, teachers or consultants in government or industry.

Project Flu Vaccination for bacteria.
Together with his colleagues of the Laboratory of Microbiology, professor John van der Oost unravelled part of the working of the immune systems of bacteria that had been infected by a virus. Theoretically, this knowledge allows for other bacteria to be protected against specific viruses and, thus, may be considered to be a flu vaccination for bacteria. Understanding this process in simple organisms on a molecular level, is the first step in revealing the mechanism of viral infection in the human body. This can be the starting point for a whole new line of medicines.

Related programmes:
MSc Biotechnology
MSc Food Technology
MSc Bioinformatics
MSc Nutrition and Health
MSc Plant Biotechnology
MSc Biology

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The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Read more
The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Plymouth University is the only university which requires students to work in ISO9001:2015 certified laboratories.

Practical work to the ISO 17025 standard is a requirement at level seven for obtaining the MChem Analytical Chemistry qualification. The programme focuses on producing practical professional chemists through a hands-on approach to learning.

Key features

-The programme provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels 4 to 7 (Masters Level)
-You will develop the theoretical and practical skills necessary for employment as professional chemist in a range of chemical and allied fields, including research, teaching and industry
-The programme will develop the theoretical and practical skills, and provide training necessary for employment as an analytical chemist with experience of working to ISO 17025, the international standard for all testing and calibration laboratories
-You will learn to become a practical professional chemists through a hands-on approach to learning.
-The course places the professional skills of communication, problem solving, information and data retrieval and project management at its heart.

Course details

Year 1
Core modules
-CHM1011 Practice of Chemistry
-CHM1015 Organic and Inorganic Chemistry 2
-CHM1016 Physical and Computational Chemistry 2
-CHM1012 Organic and Inorganic Chemistry 1
-CHM1013 Physical and Computational Chemistry 1

Optional modules
-CHM1014PP Solving Chemical Problems
-MATH1604PP Symmetry and Space
-SPNX100PP Spanish 1
-FREX100PP French 1
-GERX100PP German 1
-MATH1607PP The Quantum Universe

Year 2
Core modules
-CHM2013 Physical Chemistry
-CHM2011 Inorganic Chemistry
-CHM2012 Organic Chemistry
-CHM2015 Analytical Chemistry 2
-CHM2014 Analytical Chemistry 1
-APIE218 Preparation for the Chemical Industry Work Placement
-CHM2016 Research Skills

Year 3
Optional modules
-APIE318 Placement in Chemistry

Year 4
Core modules
-CHM3016 Advanced Physical Chemistry
-CHM3014 Advanced Inorganic Chemistry
-CHM3015 Advanced Organic Chemistry

Optional modules
-CHM3011 Chemistry Project
-CHM3012 Chemistry Project incorporating Work Based Learning
-CHM3013 Advanced Analytical Techniques
-CHM3017 Physical Chemistry

Final year
Core modules
-GEES514 Research Skills for Science
-CHM5001 MChem Analytical Chemistry Project
-CHM5004 Quality Assurance and Accreditation
-CHM5005 Analytical Chemistry Advanced Problems and Practice for MChem

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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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The principal component of this degree is an intensive novel research project providing 'hands-on' training in methods and techniques at the cutting edge of scientific research. Read more
The principal component of this degree is an intensive novel research project providing 'hands-on' training in methods and techniques at the cutting edge of scientific research. The programme is particularly suitable for those wishing to embark on an academic career, with a strong track record of students moving into graduate research at UCL and elsewhere.

Degree information

Students develop a systematic approach to devising experiments and/or computations and gain familiarity with a broad range of synthetic, analytical and spectroscopic techniques, acquiring skills for the critical analysis of their experimental and computational observations. They also broaden their knowledge of chemistry through a selection of taught courses and are able to tailor the programme to meet their personal interests.

Students undertake modules to the value of 180 credits.

The programme consists of one core module (30 credits), four optional modules (15 credits each) and a research project (90 credits).

Core modules - all students undertake a literature project (30 credits) and a research dissertation (90 credits), which are linked.
-Literature Project

Optional modules - students choose four optional modules from the following:
-Advanced Topics in Energy Science and Materials
-Advanced Topics in Physical Chemistry
-Biological Chemistry
-Concepts in Computational and Experimental Chemistry
-Frontiers in Experimental Physical Chemistry
-Inorganic Rings, Chains and Clusters
-Intense Radiation Sources in Modern Chemistry
-Microstructural Control in Materials Science
-Numerical Methods in Chemistry
-Pathways, Intermediates and Function in Organic Chemistry
-Principles of Drug Design
-Principles and Methods of Organic Synthesis
-Simulation Methods in Materials Chemistry
-Stereochemical Control in Asymmetric Total Synthesis
-Structural Methods in Modern Chemistry
-Synthesis and Biosynthesis of Natural Products
-Topics in Quantum Mechanics
-Transferable Skills for Scientists

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 15,000 words and a viva voce examination (90 credits).

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, laboratory classes and research supervision. Assessment is through the dissertation, unseen written examinations, research papers, a written literature survey, and an oral examination. All students will be expected to attend research seminars relevant to their broad research interest.

Careers

This MSc is designed to provide first-hand experience of research at the cutting-edge of chemistry and is particularly suitable for those wishing to embark on an academic career (i.e. doctoral research) in this area, although the research and critical thinking skills developed will be equally valuable in a commercial environment.

Top career destinations for this degree:
-Analyst and Adviser, Silver Peak
-Sales Associate, Sino Chen
-Phd in Nanoparticle Synthesis, UCL
-Secondary School Teacher (GCSE), Ministry of Education
-PhD in High Performance Organic Coating for Aerospace, University of Surrey

Why study this degree at UCL?

With departmental research interests and activities spanning the whole spectrum of chemistry, including development of new organic molecules, fundamental theoretical investigations and prediction and synthesis of new materials, students are able to undertake a project that aligns with their existing interests.

Students develop crucial first-hand experience in scientific methods, techniques for reporting science and using leading-edge research tools, as well as further essential skills for a research career.

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The Masters in Chemistry will extend your depth and breadth of knowledge in all branches of chemistry, suitable for a professional chemist capable of conducting research. Read more
The Masters in Chemistry will extend your depth and breadth of knowledge in all branches of chemistry, suitable for a professional chemist capable of conducting research.

Why this programme

-The School of Chemistry is a member of ScotCHEM that brings together seven Universities in Scotland. ScotCHEM is committed to excellence and to providing the highest quality postgraduate education and researcher experience.
-All of our Masters programmes in the School of Chemistry are accredited by the Royal Society of Chemistry.
-You will benefit from our links with industrial scientists, often from pharmaceutical companies, who regularly visit the School of Chemistry to give presentations.
-You will undertake a research project embedded within one of our internationally-leading research groups, and supplemented by specialist lecture courses.
-You will develop transferable skills that will improve your career prospects, such as project management, team-working, advanced data analysis, problem-solving, preparing and presenting oral and poster presentations, critical evaluation of scientific literature, advanced laboratory and computing skills, and how to effectively communicate with different audiences.
-Our Masters programmes will, therefore, provide an excellent foundation for any kind of career of scientific leadership in academia and industry
-The chemistry research school of the Universities of Glasgow and Strathclyde are linked in WestCHEM, forming a broad, dynamic research environment.

Programme structure

From September to March, you will attend lectures and tutorials. You will undertake a 12-week research project from June to August, which will provide practical application and consolidation of earlier work and enhance your ability to do independent work and present results effectively.

Core courses
-Inorganic, organic and physical chemistry
-Frontiers of chemistry
-Chemistry problems.
-Special topics from inorganic, organic, and physical chemistry

Accreditation

MSc Chemistry is accredited by the Royal Society of Chemistry (RSC)

Career prospects

Career opportunities include the chemical or pharmaceutical industry, from bench work and instrumentation to regulatory affairs, health & safety, and intellectual property/patents. Research-related jobs usually require a PhD, for which this programme provides an ideal preparation.

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The Masters in Chemistry with Medicinal Chemistry will extend your depth and breadth of knowledge in all branches of chemistry, but with some specialisation in medicinal chemistry, suitable for a professional medicinal chemist capable of conducting research. Read more
The Masters in Chemistry with Medicinal Chemistry will extend your depth and breadth of knowledge in all branches of chemistry, but with some specialisation in medicinal chemistry, suitable for a professional medicinal chemist capable of conducting research.

Why this programme

-The School of Chemistry is a member of ScotCHEM that brings together seven Universities in Scotland. ScotCHEM is committed to excellence and to providing the highest quality postgraduate education and researcher experience.
-You will benefit from our links with industrial scientists, often from pharmaceutical companies, who regularly visit the School of Chemistry to give presentations.
-All of our Masters programmes in the School of Chemistry are accredited by the Royal Society of Chemistry.
-You will undertake a research project embedded within one of our internationally-leading research groups, and supplemented by specialist lecture courses.
-You will develop transferable skills that will improve your career prospects, such as project management, team-working, advanced data analysis, problem-solving, preparing and presenting oral and poster presentations, critical evaluation of scientific literature, advanced laboratory and computing skills, and how to effectively communicate with different audiences.
-Our Masters programmes will, therefore, provide an excellent foundation for any kind of career of scientific leadership in academia and industry.
-The chemistry research school of the Universities of Glasgow and Strathclyde are linked in WestCHEM, forming a broad, dynamic research environment.

Programme structure

From September to March, you will attend lectures and tutorials. You will undertake a 12-week research project from June to August, which will provide practical application and consolidation of earlier work and enhance your ability to do independent work and present results effectively.

Core courses
-Inorganic, organic and physical chemistry
-Medicinal chemistry
-Frontiers of chemistry
-Chemistry problems.
-Special topics from inorganic, organic, and physical chemistry

Accreditation

MSc Chemistry with Medicinal Chemistry is accredited by the Royal Society of Chemistry (RSC).

Career prospects

Career opportunities in the chemical or pharmaceutical industry, from bench work and instrumentation to regulatory affairs, health & safety, and intellectual property/patents. Research-related jobs usually require a PhD, for which this programme provides an ideal preparation.

Graduates of this programme have gone on to positions such as:
-Researcher at Piramal Healthcare UK Ltd
-Assistant Lecturer and Researcher at a university

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Molecular chemistry is a creative science, where chemists synthesize molecules with new biological or physical properties to address scientific or societal challenges. Read more

Chemistry: Molecular Chemistry

Molecular chemistry is a creative science, where chemists synthesize molecules with new biological or physical properties to address scientific or societal challenges. Think of new catalytic conversions, lead compounds for future medicines or the next generation of conducting polymers. The specialisation Molecular Chemistry offers education in connection with top-level research in the Institute for Molecules and Materials (IMM), enabling you to develop in-depth knowledge of the design, synthesis and characterization of unprecedented functional molecular structures.

See the website http://www.ru.nl/masters/chemistry/molecular

Why study Molecular Chemistry at Radboud University?

- The IMM at Radboud University hosts an internationally renowned cluster of molecular chemistry groups, where you will participate in challenging research projects.
- The IMM Organic Chemistry department was recently awarded a 27 million euro NWO Gravity programme grant. Among the teaching staff are two ERC advanced grant and two ERC starting grant winners.
- Teaching takes place in small groups and in a stimulating, personal setting.

Admission requirements for international students

1. A completed Bachelor's degree in Chemistry, Science or a related area
In general, you are admitted with the equivalent of a Dutch Bachelor's degree in Chemistry, Science with relevant subjects, or a related programme in molecular science. In case of other pre-education, students must have passed preliminary examinations containing the subject matter of the following well-known international textbooks (or equivalent literature). Any deficiencies in this matter should be eliminated before you can take part in this specialisation. If you want to make sure that you meet our academic requirements, please contact the academic advisor.
- Organic chemistry: e.g. Organic Chemistry (Bruice)
- Biochemistry: e.g. Biochemistry (Lehninger)
- Physical chemistry: e.g. Physical chemistry (Atkins)
- 30 EC of chemistry or chemistry-related courses at third year Bachelor's level

2. A proficiency in English
In order to take part in this programme, you need to have fluency in both written and spoken English. Non-native speakers of English* without a Dutch Bachelor's degree or VWO diploma need one of the following:
- A TOEFL score of >575 (paper based) or >232 (computer based) or >90 (internet based)
- A IELTS score of >6.5
- Cambridge Certificate of Advanced English (CAE) or Certificate of Proficiency in English (CPE) with a mark of C or higher

Career prospects

Approximately 40% of our graduates take up a PhD position, either in Nijmegen or elsewhere in the world. Our research institutes, in particular the Institute for Molecules and Materials, have vacancies for PhD projects every year. Our graduates also find work as researchers and managers in the chemical industry, or in one of our spin-off companies. A small proportion will not work in science, but for instance as a policymaker at a governmental organisation.

Our approach to this field

The Master's specialisation in Molecular Chemistry offers main stream chemistry courses and research topics, for those students that aim to deepen their knowledge and experimental skills in the heart of chemistry. The Institute for Molecules and Materials offers a state-of-the-art research infrastructure and hosts world-class research groups where you can conduct independent research, under the personal guidance of a researcher. Often, this leads to a scientific publication with you as a co-author.

Besides an internship in fundamental science, you can also chose to perform research in an industrial environment. Approximately one third of our students do one of their internships in a chemical company, both large (e.g. DSM, Synthon, AkzoNobel) and small (e.g. MercaChem, FutureChemistry, Chiralix).

Interested in going abroad? Contact one of our researchers, they can easily connect you to top groups elsewhere in the world. In the past few years, molecular chemistry students did internships in Oxford (UK), Princeton (US), Berkeley (US), Karolinska Institute (Sweden), ETH Zurich (Switzerland), etc.

Our research in this field

In the Master's specialisation Molecular Chemistry, the unique research facilities that Radboud University has to offer are coupled with the top level research within the Institute for Molecules and Materials (IMM). A selection of research groups for this specialisation are:
- Synthetic organic chemistry (Prof. Floris Rutjes): The group focuses on the development of new and sustainable synthetic (multistep)reactions by using bio-, organo- or metal-catalysts or combinations thereof, synthesis of druglike compound libraries, synthesis of bio-orthogonal click-reactions and chemical synthesis in continuous flow microreactors

- Analytical chemistry (Prof. Lutgarde Buydens): Research involves new chemometric methodologies and techniques for the optimisation of molecular structures. The research programme is designed around four areas: Methodological chemometrics, spectroscopic image analysis, molecular chemometrics, and analysis of genomics, metabolomics and proteomics data.

- Bio-organic chemistry (Prof. Jan van Hest): This groups uses Nature as inspiration for the design of functional molecules. Research lines that fit in this specialisation include: design and synthesis of modified peptides to alter their biological function, hybrid polymers containing biomolecules for use as antibacterial materials, and smart compartmentalisation strategies to enable multi-step reactions in a single reaction flask.

- Molecular materials (Prof. Alan Rowan): The aim of the group is the design and synthesis of novel polymers, self-organising molecules and ordered crystals and the subsequent investigation of their properties. Research topics related to his specialisation are: functional systems for application in catalysis, new OLEDS (organic LEDS), and liquid crystals.

See the website http://www.ru.nl/masters/chemistry/molecular

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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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The School of Chemistry is one of the largest in the UK and an internationally recognised centre of teaching and research. Currently there are over 250 postgraduate and postdoctoral researchers, from many different countries, working with more than 60 academic staff on a wide range of research themes. Read more
The School of Chemistry is one of the largest in the UK and an internationally recognised centre of teaching and research. Currently there are over 250 postgraduate and postdoctoral researchers, from many different countries, working with more than 60 academic staff on a wide range of research themes. Extensive collaborations with science-based industries and leading international academic centres ensure that research in Bristol remains at the frontier of science.

The School of Chemistry is housed in spacious, modern laboratories, which are well equipped with state-of-the-art facilities. There is a comprehensive graduate programme to ensure you have the opportunity to build a wide range of skills, both in chemistry and other transferable skills.

The School of Chemistry hosts or participates in a number of Centres for Doctoral Training (CDTs) and Doctoral Training Partnerships (DTPs). Training opportunities in these national flagship centres are available in the following disciplines:
-Chemical synthesis
-Functional nanomaterials
-Catalysis
-Theory and modelling in chemical sciences
-Science and technology of diamond
-Synthetic biology
-Advanced composites
-Earth and environmental sciences
-Quantum engineering
-Future autonomous and robotic systems
-Bioscience
-Condensed matter physics

Research groups

The School of Chemistry maintains a traditional managerial structure with three sections, namely Inorganic and Materials, Organic and Biological, and Physical and Theoretical. However, the school’s research profile is defined according to nine themes, each with a critical mass of researchers. Further information on the school's research profile can be found at Explore Bristol Research (http://research-information.bristol.ac.uk/).

-Atmospheric and Global Change Chemistry
-Biological and Archaeological Chemistry
-Catalysis
-Computational and Theoretical Chemistry
-Materials for Energy
-Soft Matter, Colloids and Materials
-Spectroscopy and Dynamics
-Supramolecular and Mechanistic Chemistry
-Synthesis

Researchers in the School of Chemistry are engaged in a number of collaborative centres and research institutes, with broader engagement from researchers across the Faculty of Science, the University and beyond.

Careers

Many of our PhD graduates are successful in securing postdoctoral positions at universities in the UK and abroad. A PhD in chemistry is valued in many employment sectors worldwide, including pharmaceutical sciences, polymers, coatings, agrochemicals, instrumentation manufacturers and management consultancy. Your skills will be in high demand from the chemical and allied industries, as well as the public sector.

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The MRes in Analytical Chemistry is designed to meet the needs of a wide range of students. Read more
The MRes in Analytical Chemistry is designed to meet the needs of a wide range of students. In particular, it is geared towards the analytical professionals seeking to refresh their knowledge of analytical chemistry and recent graduates in a wide range of sciences allied to chemistry including, Biology, Chemistry, Environmental Science, Forensic Science and Physics.

This course enables you to develop and further your knowledge of chemical analysis, with a carefully put together range of core modules. You can expand your interests further by selecting module options and an analytical chemistry led research project within one of the diverse range of internationally recognised analytical chemistry research groups (alongside PhD students and post doctoral research fellows).

This is a new course which follows on from our well-established BSc Pharmaceutical and Medicinal Chemistry, BSc Chemistry and MChem Chemistry cluster of programmes.

We have links with scientists from AstraZeneca and Vectura who deliver some of the module content relevant to their workplace. Other guest lecturers from a variety of other companies and universities also present their research.

Modules

- Drug detection, analysis, and screening
- Research Methods and Independent Study
- Research Project
- Organic Synthesis and Characterisation of Biologically Active Compounds
- Physical Properties of Solid-state and Nanocomposite Materials
- Inorganic Chemistry Beyond the Molecule

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: http://ow.ly/PvxT302hwoq. Can't make it to Nottingham, have a look around our Virtual Open Day - https://www4.ntu.ac.uk/virtual_open_day/.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

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Materials Chemistry has emerged as an important sub-discipline within Chemistry. It cross-cuts the traditional Organic/Inorganic/Physical boundaries of Chemistry and overlaps many disciplines from Engineering to the Biosciences. Read more

Programme description

Materials Chemistry has emerged as an important sub-discipline within Chemistry. It cross-cuts the traditional Organic/Inorganic/Physical boundaries of Chemistry and overlaps many disciplines from Engineering to the Biosciences.

Materials chemists now have a leading role in areas such as microelectronics, polymer science, catalysis and nanotechnology. They also make an important contribution to areas of more traditional chemistry such as the pharmaceutical sector where understanding the 'physical properties' of intermediates and products is now recognised as essential in optimising the synthesis and properties of pharmaceutically active ingredients in medicines.

The degree consists of advanced lecture courses such as:

Properties & Reactions of Matter
Chemistry of Functional Materials
Physical Techniques in Action
Techniques and Concepts in Inorganic Chemistry

These are studied concurrently with a predominantly practical based course offering an introduction to research methods.

Students then proceed to a period of full-time research project work leading to the submission of their Master's dissertation.

Programme structure

Lectures are given by leading researchers in the area of materials chemistry. The lecture courses are supported by tutorial sessions and assessed by examination in April/May.

The Introduction to Research Methods course includes an exciting problem solving exercise where you learn important skills such as Communicating Science, Innovation, Dealing with Intellectual Property and Grant Application Writing, together with a literature survey and written report, defining the scope of the subsequent individual research project work.

Learning outcomes

On completion of the course, you should have developed a depth of comprehension and critique in the core elements of your subject area, including:

Critical analysis and management of data.
Judging the relationship between theory and methodology.
Assessment of the appropriate methods of data collection/analysis to address the research question.
Assessment of relevance of previous studies.
Critical thinking.

Additionally you will have enhanced your professional/practical skills through:

Experience of research design and management.
Advanced instrumentation or techniques.
Production of scientific reports.

You will also have had the opportunity to develop transferable skills such as:

Written, visual and oral delivery and dissemination of research findings.
Interpersonal and communication skills.
Computing proficiency.
Organisation skills.

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The Department of Chemistry is committed to providing excellence in teaching, research and in the training of PhD students. Read more

Overview

The Department of Chemistry is committed to providing excellence in teaching, research and in the training of PhD students. Our aim is to provide graduate students with every opportunity to enhance and develop their career, by providing good supervision, training in research methodology and associated professional skills; all of which will prepare them for their subsequent career.

The main objective of this programme is to provide graduate students with an integrated broad-based training in the discipline of chemistry including the most advanced research methodology in physical, organic, inorganic and analytical chemistry.

Course Structure

Students must take a minimum of 10 credits in taught modules (at least 5 in generic/transferable modules and at least 5 in subject specific/advanced specialist modules) from the structured PhD programme.

Career Options

The knowledge gained through the study of chemistry opens many career pathways, including, but not limited to, chemistry, medicine, law, business, chemical physics, environmental science, and teaching. The American Chemical Society (http://www.acs.org) and Royal Society of Chemistry (http://www.rsc.org/gateway/subject/careers) maintain career services web pages which have information about careers in chemistry.

Find out how to apply here https://www.maynoothuniversity.ie/chemistry/our-courses/msc-chemistry#tabs-apply

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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The aim of the course is to provide experience in a wide range of laboratory techniques and enhance specialist knowledge in chemistry. Read more
The aim of the course is to provide experience in a wide range of laboratory techniques and enhance specialist knowledge in chemistry. Research projects may be chosen from any area of computational, physical, inorganic or organic chemistry.

Course components include:
• An advanced chemistry practical unit
• Two research projects in areas of choice
• Taught units in advanced chemistry
• Optional taught units in chemistry, biological sciences and management
• Modules in transferable skills, including scientific presentations and report writing.

Why study Chemistry with us?

- Outstanding facilities: X-ray powder diffraction, single crystal X-ray diffraction, Mass spectrometry, NMR (250/300/400/500 MHz, multinuclear facility)
- Programmes accredited by the Royal Society of Chemistry
- Outstanding publications, substantial grant income from research councils and industrial partners has resulted in a strong demand for our postgraduates and postdoctoral workers

What will I learn?

The MRes is a self-contained qualification, and graduates will be well-suited for posts in all sectors of the chemical industry, including the pharmaceutical industry and government institutions.

Students who complete a MRes degree will be well qualified to proceed to a three-year PhD programme or the MRes can be studied as the first year of our Integrated PhD programme. They should have a competitive edge in relation to undergraduate students applying for doctoral studies.

Career Opportunities

Career opportunities
Recent Bath graduates have gone on to employment or postdoctoral research in the UK, USA (Princeton, Harvard and Yale), the Netherlands, France, Luxembourg, Norway, Brunei and New Zealand.

Employers include the NIST Center for Neutron Research, Tocris, EPSRC and the Royal Society of Chemistry.

Find out more about the department here - http://www.bath.ac.uk/chemistry/

Find out how to apply here - http://www.bath.ac.uk/science/graduate-school/taught-programmes/how-to-apply/

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