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Masters Degrees (Sustainable Chemistry)

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In our search for better medicines to improve healthcare in an ageing population, for safer agrochemicals to aid food production for a growing population, and for advanced materials for new technologies, it may come as no surprise to acknowledge that chemistry plays a dominant role. Read more

Course overview

In our search for better medicines to improve healthcare in an ageing population, for safer agrochemicals to aid food production for a growing population, and for advanced materials for new technologies, it may come as no surprise to acknowledge that chemistry plays a dominant role. Without chemistry, the necessary scientific advances will simply not be made to meet these global challenges and to secure our future.

Chemistry is often viewed as demanding in its need for energy and natural resources. We have to ensure that chemistry is safe, efficient and, above all, sustainable – chemistry that is benign by design. Sustainability is an issue facing the entire global chemicals industry, our vision is to train a new generation of scientists to find innovative 'green' resource and energy efficient solutions that have the lowest possible environmental impact; demonstrate social responsibility; and make a positive contribution to economic growth.

This course builds upon our international track record in green chemistry, particularly in the fields of synthetic chemistry, catalysis, new technologies, materials science, process engineering and entrepeneurship. Course material covers all aspects of modern green and sustainable chemistry including feedstocks, energy, sustainable synthesis (including biocatalysis) and industrial process design. Formal lectures are complemented by a 60 credit project based in our world-leading research laboratories and designed to reinforce and apply many of the concepts delivered during lectures. This MSc programme is highly interdisciplinary. It capitalises on strong established links between Chemistry, the Faculty of Engineering, and the Nottingham Business School to provide both breadth and depth in the scope of the MSc degree.

Course details

The principle objective of this MSc Green and Sustainable Chemistry is to train the next generation of scientists to appreciate, assess and address the challenges of sustainability across chemistry using industries through the implementation of robust, innovative science and technology.

Candidates will, therefore, develop an excellent operating knowledge of contemporary methods of synthesis, analysis and process design optimized for both energy and reaction mass efficiency. Graduates will be equipped with the tools and experience to critically evaluate comparable reaction pathways and make evidenced decision in the design and execution of efficient chemical processes key to the pharmaceutical, agrochemical, fine chemical and other chemical using industries. Furthermore, upon completing this degree, students will be able to make effective use of electronic communication and information search & retrieval to facilitate the development and dissemination of key critical skills with which to assess and analyse complex problems.

Further information



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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 >90 (internet based)
- An 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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Our Chemistry Master's programme provides you with an exceptional toolbox for your future. The programme is closely associated with the research Institute for Molecules and Materials (IMM). Read more

Interdisciplinary approach

Our Chemistry Master's programme provides you with an exceptional toolbox for your future. The programme is closely associated with the research Institute for Molecules and Materials (IMM). Its mission is to fundamentally understand, design and control the functioning of molecules and materials. The institute is a centre of excellence that trains the next generation of leaders in science and entrepreneurship. Research in the IMM ranges from condensed matter science to chemical biology, and builds on novel theoretical, synthetic and spectroscopic methods. Our goal is to explore new roads proceeding from synthesis and growth to design and architecture of molecular constructs and materials with specific, desired properties. The cooperation of chemists and physicists, and increasingly biologists, in one research institute is unique worldwide. It is the secret of IMM's success and its many scientific breakthroughs.

Specialisations within the Master's in Chemistry

The Master's programme in Chemistry offers you three specialisations:
- Chemistry for Life
- Molecular Chemistry
- Physical Chemistry

Top scientists

The funding we have received for our research reflects the achievements we have made. Prof. dr. Wilhelm Huck received an ERC Grant for his research on chemical reactions in extremely small drops of water. The ultimate goal is to build a synthetic cell for this. We need to understand how complex networks function in confined spaces and how the physical environment of the cell impacts on enzymatic reactions. Prof. dr. Roeland Nolte received an ERC to do research on the development of supramolecular catalysts and materials using nature as a guide. Prof. dr. Jan van Hest received funding from the Gravitation programme for his work on self-repairing materials, materials that continually adapt to their environment. This includes the idea of how the body repairs its cells and ensures that the right substances reach the right places at the right time. They want to gain fundamental understanding of the complexity of that dynamic.

The Nijmegen approach

The first thing you will notice as you enter our Faculty of Science is the open atmosphere. This is reflected by the light and transparent building and the open minded spirit of the people that you will meet, working, exploring and studying there. It is no wonder students from all over the world have been attracted to Nijmegen. You study in small groups, in direct and open contact with members of the staff. In addition, Nijmegen has excellent student facilities, such as high-tech laboratories, libraries and study ‘landscapes'.

Studying by the ‘Nijmegen approach' is a way of living. We will equip you with tools which are valuable for the rest of your life. You will be challenged to become aware of your intrinsic motivation. In other words, what is your passion in life? With this question in mind we will guide you to translate your passion into a personal Master's programme.

Quality label

For the third time in a row, this programme was rated number one in the category Chemistry in the Netherlands by the Keuzegids Masters 2015 (Guide to Master's programmes).

Career prospects

Most of our graduates take up a PhD position, either in Nijmegen or elsewhere in the world. Our research institutes have many vacancies for PhD projects every year. Our graduates also find work as researchers and managers in industry, in business and in research institutes.

Our approach to this field

"The Republic has no need of chemists and savants", were the words with which Antoine Lavoisier, one of the founders of modern chemistry, ended up on the guillotine during the French revolution. Fortunately these days the importance of chemistry for the benefit of a sustainable society is well-recognised. As such, chemistry has been designated a key area by the Dutch "innovatieplatform". So there will be many chemistry-related innovation initiatives in both industry and academia. This will be substantiated by a steering committee formed by the Association of Dutch Chemical Industries (VNCI) and the Chemical Science division of the Netherlands' Organisation for Scientific Research (NWO/CW). These developments demand a continuous influx of well-trained chemists.

An integrated Chemistry programme was set up at the University of Nijmegen in 1962. The current Master's degree programme in Chemistry derives from the integrated programme that was established in 1999.

Radboud University Nijmegen aims to provide a Master's degree programme in Chemistry at an internationally recognised level. The programme is based on the research themes that exist within the Research Institute for Molecules and Materials (IMM) and to a somewhat lesser extent, the Radboud Institute for Molecular Life Sciences (RIMLS). In recent years, the IMM has focused on chemistry research in the areas of organic chemistry (synthetic, bio-organic, supramolecular and materials), nuclear magnetic resonance (solid state NMR and biophysical chemistry), and solid state chemistry. Furthermore, increasing research interaction with biology and physics groups has emerged to offer ample opportunities for new research and education. Based on this research, modern, high quality education can be provided within the Master's degree programme.

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

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The first course of its kind to be accredited by the Royal Society of Chemistry, this taught Masters course is designed to equip you with the necessary skills in green chemistry and green chemical technology to prepare you for a range of different careers in research, process development, environmental services, manufacturing, law, consultancy and government. Read more
The first course of its kind to be accredited by the Royal Society of Chemistry, this taught Masters course is designed to equip you with the necessary skills in green chemistry and green chemical technology to prepare you for a range of different careers in research, process development, environmental services, manufacturing, law, consultancy and government.

Course Content

The MSc is a one year full time course consisting of taught material and a substantial research project. Teaching is delivered by academic experts within the Department of Chemistry as well as external experts from other academic institutions and industry. The Teaching component of the course is delivered via a mix of lectures, workshops, seminars and practical work. You will learn about the key principles of green chemistry and the importance of sustainable technology in a variety of areas. In addition to this, you will also have the opportunity to enhance your transferable skills.

Assessment methods include a closed examination, written assignments, presentations, posters and practical work.

Our Students

The MSc course has been running for over ten years over which time there has been a large increase in the range of nationalities represented. The content of the course is globally relevant and so attracts applications from around the world from people keen to develop their own knowledge to pass on when they return to their home country. Students have an opportunity not only to benefit from the degree that will aid them in their future career in industry or elsewhere but also to experience the cultural and social attractions that the university and the city can offer.

Students who have previously studied the MSc programme have come from France, Spain, Ireland, Tanzania, Nigeria, Oman, Thailand, Malta, Lithuania, Brunei, China and Malaysia to name but few – the full range can be seen on the map below. The diversity of our students enriches the cultural experience for all members of the group.

Career Destinations

The course will be of benefit to students who wish to follow a range of career paths including those in chemistry-based industries:
-Speciality chemical and associated manufacturing industries
-Fine chemical and associated manufacturing industries
-Catalyst development
-Pharmaceutical industry in either a research or process-development role
-Chemical formulation
-Chemical user companies along the entire supply chain including retail
-Government departments and science laboratories
-University academic career
-University research career, in particular as a route to PhD research
-Environmental monitoring and evaluation
-Legal services and other organisations

Research Project

A key part of the MSc in Green Chemistry is the research project. The whole course is 180 credits and the research project accounts for 100 of these so is a very significant part of the programme.

Students are able to choose from a range of project areas in order to carry out research in their area of interest. Projects will be supervised by an academic member of staff, and may also involve collaboration with industry. Projects are chosen in the early stages of the course and you will be allocated to a PAG - Project Area Group - that corresponds with larger research projects that are currently taking place within the Green Chemistry Centre.

Projects can vary each year, but examples of recent MSc students' research includes:
-Production of natural flavours and fragrances using biocatalysis in scCO2
-Clean synthetic strategies for production of pharmaceuticals
-Extraction and utilisation of high value chemicals from food waste
-Starbon technology for catalysis
-Microwave assisted pyrolysis of wood pellets
-Bio-derived platform molecules

The research project module is assessed by a substantial written report by each student, a PAG report and an oral presentation on your individual research.

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Content. The increasing demand for raw materials, their price volatility, the production concentration and the market distortions imposed by some countries, confront Europe and other world regions with a number of challenges along the entire value chain. Read more
Content

The increasing demand for raw materials, their price volatility, the production concentration and the market distortions imposed by some countries, confront Europe and other world regions with a number of challenges along the entire value chain. To tackle this supply risk challenge and to deal with environmental problems arising from too large emissions of waste (such as CO2), technological innovation is required with respect to exploration of new resources and sustainable primary mining, sustainable use of resources in specific products and production processes (e.g. substitution of critical metals in materials), prevention of waste generation, valorisation of secondary (alternative) resources and recovery/recycling of resources from end-of-life products.

The International Master of Science in Sustainable and Innovative Natural Resource Management (SINReM) aims at educating a new range of professionals with a holistic overview on resource management and up-to-date processing technologies, who are familiar with sustainability concepts and possess an innovative mind-set to boost the economic importance of this sector.

Students will be acquainted with the different (technological) options for optimizing flows of natural resources in the different parts of the chain, ranging from resource exploration over sustainable materials use and use of resources in production processes to recovery/recycling of resources from end-of-life products. The focus is on developing ground-breaking technologies, engineering and re-inventing the value chain to make it more sustainable. Students will get a broad view on the entire value chain in its different aspects.

Networking and exchange of knowledge and experience between different nationalities, between academic and non-academic partners and between scholars and students will be promoted.

SINReM is offered by a consortium consisting of 3 Institutes of Higher Education:

Universiteit Gent / Ghent University (UGent, Gent, Belgium);
Uppsala University (UU, Uppsala, Sweden);
TU Bergakademie Freiberg (TUFreiberg, Freiberg, Germany).

The SINReM programme is (co)financed by the European Institute of Innovation and Technology within the EIT Raw Materials programme and aims at achieving an EIT label. EIT-labelled educational programmes foster students to become more creative, innovative and entrepreneurs.

Career Perspectives

Graduates are qualified for a professional career in the private (supporting companies in making processes, products and services more sustainable), research (applied research at universities, research institutes or companies) or public sector (consulting in local, regional and (inter)national administrations, defining and implementing sustainable development policies).
Graduates have an entrepreneurial mindset, a multidisciplinary view and creative innovative problem-based technology development skills

Structure

This 2-year programme contains 120 ECTS credit units and leads to the joint diploma of International Master of Science in Sustainable and Innovative Natural Resource Management.

In order to expose all students to different institutional settings, student mobility within Europe is an integral part of the programme.

General Entrance Module - Semester I 30 ECTS - Ghent University
Advanced Module - Semester II 30 ECTS - Uppsala University
Field trip - Summer School - University of Freiburg
Advanced Module II - Semester III 60 ECTS - choose a one of the following majors containing (elective) courses in combination with master dissertation research:
geo-resource exploration (Uppsala)
sustainable processes (Freiberg)
sustainable materials and resource recovery (Ghent)

All students will be moving as a cohort to Gent, Freiberg and Uppsala in the first year, which approach has significant networking and social cohesion advantages.

During this first year, students are introduced to the value chain, management of natural resources, the circular economy, its economic, policy and legal aspects, inventory techniques, the clean technology concept and life cycle assessment tools to assess sustainability of products, services and processes. Moreover, students are exposed to a basic training in the different technological tools that can be used to intervene in different parts of the value chain (geo-resource exploration, sustainable (chemical) extraction processes, sustainable materials and resource recovery technology).

In the second year students have the option to further specialize by selecting a major and conducting thesis research. They interact with the professional sector through cooperation in thesis research, internships, lectures and seminars.

Admission Requirements

To be admitted, candidates must have at least a bachelor degree (minimum 180 ECTS credits) in engineering or science (physics, chemistry, biology, mathematics, earth science, materials science) including 15 ECTS in mathematics and/or physics and 10 ECTS pure or applied chemistry or an equivalent level from a recognised university or Engineering College.

In terms of language requirements the following is currently applied in or acceptable by the partner institutes. Changes to these requirements are however admissible (upon approval by the MB).

Nationals of Australia, Botswana, Canada, Eritrea, Gambia, Ghana, Guyana, India, Ireland, Kenya, Liberia, Malawi, Namibia, New Zealand, Nigeria, Philippines, Sierra Leone, South Africa, Sri Lanka, Trinidad and Tobago, Uganda, UK, USA, Zambia, and Zimbabwe, need to send proof of at least one year - 60 ECTS (finished successfully) - of comprehensive English-based instruction at a HEI do not need to present a language certificate but a mode of instruction.

Candidates from any other nationality need to present test results of one of the following tests (validity of 5 years; TOEFL/IELTS predictive tests and TOEIC will not be accepted):

TOEFL IBT 86
TOEFL PBT 570
ACADEMIC IELTS 6,5 overall score with a min. of 6 for writing

Candidates apply online through a standard online application form. All candidates fulfilling the above-mentioned minimum admission requirements receive and an official letter of admission signed by the legal representative of Ghent University (the Rector), in name of the consortium. Any applicant will need to be granted academic admission by Ghent University, advised by the SINReM Management Board, before starting the program. To this aim, candidates have to prove through their application file that they meet the admission requirements.

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Materials Chemistry is one of the modern chemical disciplines underpinning a substantial portion of the chemicals sector. The programme provides a unique general training in the area and includes the chance to specialise in aspects such as Polymer Chemistry, Inorganic Materials, Supramolecular Chemistry or Nanosciences. Read more
Materials Chemistry is one of the modern chemical disciplines underpinning a substantial portion of the chemicals sector.

The programme provides a unique general training in the area and includes the chance to specialise in aspects such as Polymer Chemistry, Inorganic Materials, Supramolecular Chemistry or Nanosciences. Both synthesis and characterisation are core parts of the taught aspects.

The course provides for studies in all aspects of Materials Chemistry. Students can study fundamental aspects of Polymer Chemistry; Nano and Supramolecular Chemistry, Inorganic Materials Chemistry and the programme includes application areas such as Nanomaterials and Semi-conductors.

Professional Accreditation

We will be seeking accreditation from the Royal Society of Chemistry (RSC).

Why Bradford?

Uniquely the programme offers one of the widest ranges of opportunities for carrying out a 12 month research project from a selection that covers all aspects of Materials Chemistry. Projects are supervised by leading researchers in their fields.

Studies can either be conducted over a 12 month period at Bradford or remotely over 24 months with a project being conducted in an area of Materials Chemistry at the student’s workplace.

Rankings

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

Modules

Core modules:
-Research skills, professional development and commercial awareness
-Research Project - Part 1
-Research Project - Part 2

Option modules:
-Inorganic Materials Chemistry
-Fundamentals of Nano and Supramolecular Materials
-Introduction to Polymer and Colloid Science
-Computational Crystal Engineering
-Materials in Electronics
-Materials Characterisation

Learning activities and assessment

Transferrable skills are at the heart of the programme and these aspects are assessed by submission of a thesis, a draft scientific paper, oral presentation as well as modules on data management.

Career support and prospects

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

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

Materials Chemists work in a diverse range of areas including: medical devices; electronic devices; sustainable energy generation; nanomaterials; surface coatings; controlled delivery of drugs and agrochemicals and many other areas.

Transferable skills are also a key component and graduating students will be equipped for careers in both academia and industry.

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Chemistry is the central science enabling a healthy future in a sustainable society. Chemistry researchers in Leiden 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. Chemistry researchers in Leiden take a fundamental approach in finding tailored solutions for complex societal problems in human health and environmental issues.

Visit the website: http://en.mastersinleiden.nl/programmes/chemistry/en/introduction

Course detail

In the Master of Science specialisations in Communication, Education or Science-Based Business, specific career opportunities in science-related professions can be explored.

Specialisations

- Chemistry and Education
- Chemistry and Science Communication and Society
- Chemistry and Science-Based Business
- Research in Chemistry

Within the first four specialisations students have the choice of two major research areas:

- Chemical Biology
- Energy & Sustainability

The aim of each programme is to train the student as an independent scientist and to develop the necessary skills and proficiency to advance his/her career.

All specialisations are intended for students with an internationally recognised bachelor’s degree in chemistry or a Bachelor of Science degree with a major in chemistry. The Master of Science programme guarantees thorough research training founded on a profound theoretical basis. Master of Science students in Leiden work in an environment with many internationally renowned researchers and are able to operate on the international market.

All students with a Master of Science degree are admissible to a PhD programme.

Reasons to Choose Chemistry in Leiden:

- The Leiden Institute of Chemistry (LIC) is highly acclaimed for the international character of its education with a young and enthusiastic research staff.

- The LIC offers tailor-made individual study programmes.

- Students become true members of internationally renowned multidisciplinary research teams.

- The Chemistry MSc programme offers ample opportunities for research projects in distinguished groups worldwide or in an industrial environment.

- The high standard of education ensures excellent job prospects in research or industry.

How to apply: http://en.mastersinleiden.nl/arrange/admission

Funding

For information regarding funding, please visit the website: http://prospectivestudents.leiden.edu/scholarships

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Sustainable Business and Innovation focuses on sustainability business challenges and technological and non-technological options that can be used to innovate in a sustainable way. Read more

Become a Sustainability Change Agent

Sustainable Business and Innovation focuses on sustainability business challenges and technological and non-technological options that can be used to innovate in a sustainable way.

As part of this two-year Master's programme in Sustainable Business and Innovation, students learn about sustainability challenges and the technological and other options that businesses can use to work in a more environmentally and socially friendly manner. By reviewing the academic literature and theory, real-life examples, and business case studies, students acquire insight into the behaviour of organisations, including processes of organisational change and innovation.

Businesses increasingly face significant challenges and opportunities from environmental issues such as climate change, energy, and water and social issues such as labor and human rights, corruption, and transparency. Stakeholders in these businesses – including governments, shareholders, business customers, local communities, consumers, employees, and NGOs – are demanding that companies become more focused on sustainability for themselves and the communities they impact. Graduates from this programme understand how to help business and organisations in their journey toward making societies more sustainable. The course content is framed by life-cycle thinking, systems thinking, and long-term thinking.

The Sustainable Business and Innovation programme closely works with the BISS research group of the Copernicus Institute of Sustainable Development at Utrecht University. The investigations cover a wide range of issues related to sustainable development and innovation.

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The focus of the degree is on how to effect changes towards sustainable development, and the development of practical skills in leading change processes. Read more

Overview

The focus of the degree is on how to effect changes towards sustainable development, and the development of practical skills in leading change processes. You will have options to develop capabilities in a diverse range of disciplinary options from the environment to international politics or organisational management according to professional need.

See the website http://courses.mq.edu.au/international/postgraduate/master/master-of-sustainable-development

Key benefits

- Offers a practical component as either work experience, consultancy practice or research
- Focuses on change oriented processes for sustainable development, including organisational change, education and capacity building, and strategic planning
- Addresses the needs of professionals working in aid agencies, non-governmental organisations, government agencies, business and international bodies concerned with issues of sustainable development
- Gives you the opportunity to study some units from the Macquarie Graduate School of Management if you wish to work in organisational sustainability

Suitable for

This degree is suitable for professionals working in the field of environment and development or sustainable development. It is particularly relevant to those involved in planning, financing and evaluating initiatives in sustainable development.

Through its international case-study focus, the degree addresses the needs of professionals working in aid agencies, non-government organisations, government agencies, corporations and international bodies concerned with sustainability issues.

Recognition of prior learning

Course Duration
- 2 year program
Bachelor degree in any discipline and work experience in a relevant area.

- 1.5 year program
Bachelor degree in a relevant discipline and work experience in a relevant area.

- 1 year program
Bachelor degree in a relevant discipline, Masters (coursework) or Higher Degree Research in a relevant discipline and work experience in a relevant field;
Honours, Graduate Certificate (1yr FT) or Graduate Diploma in a relevant discipline and work experience in a relevant area.

- Relevant disciplines
Majors or specialisations in Environment, Environmental Management, Environmental Science, Natural Resource Management, Earth Sciences, Geology, Engineering, Environmental Economics, Environmental Law, Biology, Chemistry, Ecology, Hydrology, Geography, Political Economy, Development Studies, Politics, Business, Education, Management, Architecture, Planning, Design, Social Science, Communication, Education, Sustainability or Sociology.

- Relevant areas
Minimum three years relevant work experience: policy, project management, research or training in the fields of social and economic development, environment, engineering, science, education, communication, media, arts, business, consultancy, management.

Work experience requirements

Minimum of three years of relevant work experience

English language requirements

IELTS of 6.5 overall with minimum 6.0 in each band, or equivalent

All applicants for undergraduate or postgraduate coursework studies at Macquarie University are required to provide evidence of proficiency in English.
For more information see English Language Requirements. http://mq.edu.au/study/international/how_to_apply/english_language_requirements/

You may satisfy the English language requirements if you have completed:
- senior secondary studies equivalent to the NSW HSC
- one year of Australian or comparable tertiary study in a country of qualification

Careers

- Career Opportunities
Our graduates pursue careers:
- in consultancy work with business or community
- with local councils
- as sustainability coordinators for regional and national businesses
- in universities and other educational bodies

Employers
- aid agencies, such as AusAID
- businesses such as Lend Lease, Fuji Xerox
- government sector such as the Department of Environment, Climate Change and Water (DECCW)
- international bodies such as the The United Nations Development Program (UNDP)
- non-government organisations such as the International Union for Conservation (IUCN)

See the website http://courses.mq.edu.au/international/postgraduate/master/master-of-sustainable-development

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Geoscience provides essential guidance on how we can manage many of society’s most pressing future challenges. Read more
Geoscience provides essential guidance on how we can manage many of society’s most pressing future challenges. Whether it is reducing the impact of natural threats, exploiting resources more responsibly or developing new economic livelihoods, geoscientific knowledge has a critical role to play in effective geo-environmental decision making. With a holistic scientific approach and interdisciplinary problem-solving skills, our geoscience graduates will be at the forefront of sustainable thinking.

Key features

-Plymouth’s Sustainable Earth Institute provides the ideal research platform to explore how interdisciplinary thinking can build a more resilient world.
-With a hinterland that includes UNESCO-designated 'Cornwall and West Devon Mining Landscape', 'Jurassic Coast' and 'English Riviera Geopark', we live in a region where geology underpins local communities.
-South-west England’s long heritage of metal and clay mining provides a cultural and environmental legacy of both the benefits and costs of geological exploitation.
-Active engagement with local and international mining, quarrying and energy companies - including the newest UK metals mine on our doorstep – this provides industrial links and career opportunities.
-International fieldwork in areas celebrated for their geodiversity and geo-resources provide excellent natural laboratories for exploring sustainable geoscience.
-A research-based project allows you to apply your broad geoscience skill set to real-world problems, working with industry, a non-governmental organisation (NGO), or leading research academics.
-Modules are assessed 100 per cent by coursework, designed to reflect the outputs of the industry, readying you for what you are likely to be asked to do in your job.

Course details

The programme will outline the broad context of sustainable geoscience, showcasing a range of geological issues that challenge the modern world. Mineral, energy and water resources are the engine of economic development and national security, yet also a critical threat to the health and well being of ourselves and our environment, so we examine the societal issues around resource management. The programme also explores how the natural diversity of rocks and landscapes maintain cultural heritage and sustain tourism, providing communities with alternative economic livelihoods. More broadly, the programme sets geoscientific concerns in the wider national and global sustainable development framework and the interdisciplinary thinking that underpins it to give a holistic geo-perspective on sustainability science.

Core modules
-GEES515 Professional Practice in the Environmental Sector
-GEES516 Science, Society and Environmental Governance
-GEES517 Environmental Assessment
-GEES520 MSc Dissertation
-GEOL5006 Sustainable Geoscience: Research and Communication
-GEOL5007 Sustainable Minerals and Mining

Optional modules
-GEES518 Professional Experience in Environmental Management
-GEOL5008 Geodiversity and Geoheritage

The modules shown for this course or programme are those being studied by current students, or expected new modules. Modules are subject to change depending on year of entry.

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The PGCE Secondary course is an exciting and challenging 36 week training programme which will prepare you for the teaching profession (see course calendar below). Read more
The PGCE Secondary course is an exciting and challenging 36 week training programme which will prepare you for the teaching profession (see course calendar below).

The aim of the course is to prepare you to become a confident and excellent secondary school teacher in Chemistry and Science. Creativity, innovation, critical reflection, academic rigour and professionalism are key attributes which we highly regard, foster and expect from you if you are accepted onto our course.

The South West Wales Centre of Teacher Education has excellent graduate employment rates with 99% of graduates going into employment or further study (DLHE 14/15).

Key Features

-High quality new and well established staff with recent and relevant experience of secondary school provision
-English and Welsh medium student provision
-We are geographically well placed to serve the whole of South Wales
-Our programme is the largest provider of Secondary PGCE training in Wales
-Long established English and Welsh medium partnership schools and very experienced school /college mentors
-Excellent subject and ICT resources available for students
-Post-course CPD opportunities
-We have the best employment rate throughout Wales

The course covers training in a wide variety of teaching techniques with opportunities to try ideas out in the partner schools. This course will equip trainees to teach Chemistry within the 11-18 age range in a variety of schools and colleges (including Welsh medium if requested). The course provides you with training to teach Chemistry up to the A and AS examinations and all the sciences up to at least Year 9 of the secondary school.

The fundamental aims of the PGCE Chemistry programme are to develop the skills of a trainee Chemistry/Science teacher who is able to reflect on practice gained through teaching experience in school; who can analyse that experience in the light of discussion with mentors and others and also in the light of their reading; and evaluate their practice effectively to demonstrate gradual improvement in the standards of their own teaching and pupils' learning.

Career Opportunities

The South West Wales Centre of Teacher Education has excellent graduate employment rates with 99% of graduates going into employment or further study (DLHE 14/15).

Many school and college departments, both locally and nationally, are staffed with several of our teachers and many of our trainees have gone on to forge successful teaching careers at strategic, professional and management levels at home and abroad.

Our PGCE graduates usually remain in close touch with us as they make their careers in the teaching profession and they often become Subject Mentors on the programme. This creates a very strong, sustainable professional network of teachers which is a rich source of continuing professional development.

Recently our PGCE Chemistry graduates have gone on to work as Secondary teachers in many independent and state schools in Wales, England and abroad including (but not limited) to: Cardiff High School, Ysgol Gyfun Gwyr (Swansea), Caerphilly County Borough Council, Camborne Science and International Academy (Camborne), Ysgol Uwchardd Aberteifi (Cardigan).

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Chemistry plays a pivotal role in determining the quality of modern life. The chemicals industry and other related industries supply us with a huge variety of essential products, from plastics to pharmaceuticals. Read more
Chemistry plays a pivotal role in determining the quality of modern life.

The chemicals industry and other related industries supply us with a huge variety of essential products, from plastics to pharmaceuticals.

However, these industries have the potential to seriously damage our environment.

This has resulted in a growing demand from society for a reduced reliance on fossil fuels and for greener manufacturing processes.

There is also a need for future innovations to be built on more sustainable foundations.

Green chemistry therefore serves to promote the design and efficient use of environmentally benign chemicals and chemical processes.

This course is designed to introduce you to all aspects of sustainable chemical practices, with nine months dedicated to a research project in a green chemistry area.

Graduates of this course can expect to have all the necessary skills and experience to apply green chemical technologies in either commercial or academic laboratories, the research project in particular equipping them admirably for PhD studies.

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Our Sustainable Chemical Engineering MSc, PGDip gives scientists and engineers with an understanding of sustainable engineering practices the opportunity to work with researchers in the field of new energy technologies. Read more
Our Sustainable Chemical Engineering MSc, PGDip gives scientists and engineers with an understanding of sustainable engineering practices the opportunity to work with researchers in the field of new energy technologies. This includes areas such as fuel cells and gasification, process intensification and new advanced materials.

The course meets the growing need for engineers skilled in material and process engineering. It highlights the potential of sustainable engineering and provides an understanding of the environmental, economic and social issues associated with the operation of industrial processes.

It is intended for honours graduates with an engineering or chemical science based degree who wish to learn how to apply their knowledge to sustainable chemical and process engineering design.

You will gain specialist knowledge and understanding via lecture classes, seminars and personal supervision. The course uses taught modules in a variety of topics, including:
-Sustainable design and manufacture
-Renewable energy
-Energy management
-Materials

In addition, you will benefit from the use of industrial case studies and visiting speakers. Academics, such as Dr Sue Haile, work with you and are responsible for supervising your final projects.

Placements

You will have a unique opportunity to complete a three month work placement with a local company or research organisation. Projects vary from examining the sustainability of existing or new processes, to environmental assessment and energy efficiency, and examination of Carbon Reduction Potential versus the Potential Risk.

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Catalysis lies at the heart of many chemical processes, from living systems to large-scale industrial reactors. By understanding and applying catalysts, we can make processes faster, cleaner and more sustainable. Read more
Catalysis lies at the heart of many chemical processes, from living systems to large-scale industrial reactors. By understanding and applying catalysts, we can make processes faster, cleaner and more sustainable. Specialists in catalysis are particularly sought after in industry, as more efficient processes can lead to less waste and cost savings.

Our MSc in Catalysis will provide you with a sound foundation in catalysis theory and its applications. We will explore three branches of catalysis – heterogeneous, homogeneous and biological – and you will be given the opportunity to specialise in the area you are most interested in. You will be trained to use a range of laboratory equipment and techniques for testing and characterising catalysts.

Distinctive features:

• Based on the research undertaken in the School of Chemistry and the Cardiff Catalysis Institute.

• Available on a one-year full-time or three-year part-time basis.

• Specialise in heterogeneous, homogeneous or biological catalysis for your research project.

• Tailor the degree to your interests with our range of optional modules.

• Opportunity to carry out research at an overseas partner university.

Structure

This course may be taken on a one-year full-time or three-year part-time basis.

There are two parts to the degree. Part one is comprised of core and optional taught modules which you will take during the autumn and spring semesters. In these modules we will provide you with a foundation in the theory of heterogeneous, homogeneous and biological catalysis. Optional modules will allow you to specialise in your area of interest.

On progression to part two, you will carry out a summer research project in our research laboratories or one of our partner universities. We will make a range of project options available to you from the three areas of catalysis, molecular modelling, or computational chemistry.

If you are on the one-year full-time degree option, you will undertake all modules and your research project in one year.
If you are studying this course on a three-year part-time basis, you will take half the taught modules in year one.

Core modules:

Catalysis and Electrocatalysis
Biocatalysis I - Modern Approaches to Biocatalysts
Colloquium
Catalyst Design Study
Preparation and Evaluation of Heterogeneous Catalysts
Mechanism and Ligand Design in Homogeneous Catalysis
Practical Catalytic Chemistry
Key Skills for Postgraduate Chemists
Research Project

Optional modules:

Modelling of Biological Macromolecules
Applications To Materials Science
Bioinorganic Chemistry
Modern Catalytic Processes
Advanced Techniques in Organic and Biological Chemistry
Molecular Modelling
Catalytic Materials for Green Chemistry

Teaching

The methods of teaching we employ will vary from module to module, as appropriate depending on the subject matter and the method of assessment. We teach using a mixture of lectures, workshops, tutorials, practicals and self-directed learning.

Your research project will be carried out in research laboratories under the supervision of an academic member of staff with interests in a similar field.

Modules relating to computing frequently take place in our computer rooms, while practical work and your research project will be undertaken in our laboratories.

Students will also benefit of the weekly seminars organised by the School of Chemistry, where leading experts in various scientific fields are invited to present their work.

Support

All of our students are allocated a personal tutor when they enrol on the course. A personal tutor is there to support you during your studies, and can advise you on academic and personal matters that may be affecting you. You should have regular meetings with your personal tutor to ensure that you are fully supported. Many of our staff operate an open door policy and meetings can be arranged at mutually convenient times to discuss your work.

You will have access to the Science Library, which holds our collection of chemistry resources, as well as to the other Cardiff University Libraries. In addition to the library facilities the University has extensive electronic resources of text books and research journals that can be accessed online.

Feedback:

We offer written and oral feedback, depending on the coursework or assessment you have undertaken. You will usually receive your feedback from the module leader. If you have questions regarding your feedback, module leaders are usually happy to give advice and guidance on your progress.

Assessment

Taught modules are assessed in a variety of different ways depending on the module content and learning outcomes (found in the module descriptions). We use course work, assessed workshops, presentations and examinations or a combination of these to assess your progress on the course.

Your research project at the end of the course will be assessed through a dissertation, a presentation, and an oral exam.

Career prospects

Upon completion of this course, there are usually two career streams open to graduates: research or industry. Within these two fields there are a variety of career options. For example, many of our graduates choose to follow up their MSc and decide to complete a PhD research degree with us. Other past graduates have found employment in industry with companies such as Johnson Matthey, Thales, Hexion, BAE Systems in the UK, as well as international companies such as Haldor Topsøe, Denmark and the National Science and Technology Development Agency in Thailand.

Placements

There is the opportunity to undertake the research project overseas in one of our partner institutions allowing you to expand your range of chemistry knowledge, laboratory skills and professional network.

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The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. Read more

Mission and Goals

The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. This special programme aims to prepare technicians capable of following and actively directing technological advances, operating effectively in a competitive and multi-disciplinary industrial context.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Career Opportunities

Graduates find employment in numerous industrial sectors, including industries producing and distributing energy, thermal, thermal-electric, air-conditioning and refrigeration plant design and management companies, energy management in companies or bodies with production objectives which may be far-removed energy. A Master of Science Engineer has openings in research and development as well as in activities related to the feasibility study and design of large-scale plant, innovative processes and development of technologically advanced machines and components.

For the academic year 2014-2015 prospective students with a university qualification obtained abroad can apply only for the 1st semester. This study course does not accept applications for the 2nd semester.
Applicants are required to take the GRE test (Graduate Record Examination) through ETS DI code 6939 in due time to have test scores sent to Welcome Desk Piacenza (welcome.piacenza(at)polimi.it) within the last day of the application period.

Recommended minimum GRE scores to be achieved for admission:
Verbal Reasoning: 155
Quantitative Reasoning: 155
Analytical Writing: 4.0

Only students with a Degree earned at an Italian University can apply without taking GRE test and they can also apply for admission at the 2nd semester.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_01.pdf
The programme provides a mix of design, operational and management skills, with particular emphasis on system and process engineering related to the production of basic energy carriers (electricity, heat and fuels) under tight environmental constraints. Students will learn how to evaluate and solve engineering issues (thermal, environmental, mechanical, chemical, electrical) raised by energy conversion systems, as well as analyze and assess operational and maintenance issues. Particular attention will be devoted to renewable energy sources, non-conventional energy technologies, emission control, electric systems with distributed power generation, etc. Teaching is organized around 3 core aspects: modeling and simulation tools; interdisciplinary vision; problem-solving approach. The programme is taught in English.

Subjects*

1st year – 1st semester
- Advanced Mathematical methods for energy engineering
- Advanced Thermodynamics and Heat Transfer
- Fundamentals of chemical processes for energy and the environment
1st year – 2nd semester
- Turbomachinery and internal combustion engines
- Energy and environmental technologies for building systems
- Electric conversion of renewable energy sources
- Materials and manufacturing process for energy

2nd year – 1st semester
- Energy systems and low-carbon technologies
- Air pollution and control engineering
- Operation and control of machines for power generation
2nd year – 2nd semester
- Bio-energy and waste-to-energy technologies
- Smart grids and regulation for renewable energy sources
- Major independent project work

* The list and titles of the courses to be followed is undergoing a revision aimed at enhancing the focus of the programme on the connection between Energy and the Environment. This will entail a reduction of the credits devoted to manufacturing, operation and control of machines and an increase of the credits devoted to optimization methods, renewable energy, industrial ecology. The final list of courses to be taken for the Academic Year 2016-17 will be available in January 2016.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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