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Masters Degrees (Quantum Chemistry)

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The aim of this programme is to train new professionals in the field of nanotechnology, materials and chemical engineering. Read more
The aim of this programme is to train new professionals in the field of nanotechnology, materials and chemical engineering. It is of particular interest for graduates in any of the branches of the experimental sciences and technologies (chemistry, chemical engineering, biochemistry, biotechnology, physics, quantum chemistry, biological chemistry, microbiology, etc.) and it clearly prepares them for future research.

The students will acquire the skills required for them to join universities, research institutes, industry and services with a strong sense of innovation, development and entrepreneurial vision.

Student Profile

The Master’s Degree is designed for candidates holding a bachelor’s degree in any of the branches of the experimental sciences and technologies: chemistry, chemical engineering, biochemistry, biotechnology, physics, materials, quantum chemistry, biological chemistry, microbiology, etc.). It clearly prepares students for future careers in research.

Career Opportunities

Graduates in the University Master's Degree in Nanoscience, Materials and Processes: Chemical Technology at the Frontier are capable of working in:
-Research at universities and research institutes. The master's degree is a requirement for being admitted to a PhD programme and the key to a future career as a researcher.
-Research, development and innovation in industries based on new scientific and technical knowledge (biotechnology, microelectronics, telecommunications, energy storage, new materials, etc.) and traditional industries (chemical, pharmaceutical, biomedical, ceramics, textiles, etc.) interested in innovation.
-Management, control and strategic planning of nanotechnological techniques, products and processes in the electronics industry, telecommunications, biomedicine, biotechnology, pharmacology, etc.

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The MPhil is offered by the Department of Chemistry as a full-time period of research and introduces students to research skills and specialist knowledge. Read more
The MPhil is offered by the Department of Chemistry as a full-time period of research and introduces students to research skills and specialist knowledge. Students are integrated into the research culture of the Department by joining a research group, supervised by one of our academic staff, in one of the following areas of Chemistry:

Biological:

with a focus on enzymes, nucleic acids, protein folding and misfolding, and physical techniques; with relevance to health and disease, drug discovery, sensors, nanotechnology, ageing and energy research applications.

Materials Chemistry:

including surfaces, interfaces, polymers, nanoparticles and nanoporous materials, self assembly, and biomaterials, with applications relevant to: oil recovery and separation, catalysis, photovoltaics, fuel cells and batteries, crystallization and pharmaceutical formulation, gas sorption, energy, functional materials, biocompatible materials, computer memory, and sensors.

Physical Chemistry:

including atmospheric sciences, surfaces and interfaces, materials, and physical and chemical aspects of the behaviour of biopolymers and other soft systems.

Synthetic Chemistry:

including complex molecule synthesis, synthetic catalysis, synthetic assembly, synthetic biology and medicine, new technology for efficient synthesis, green synthesis, and preparation of new materials.

Theory, Modelling and Informatics:

including quantum dynamics, modelling soft materials, protein folding and binding, biomolecules in motion, pharmacological activity, molecular switches, redox chemistry, designing bioactive molecule and drugs, chemical biology, crystallography, and simulation of spectroscopic studies.

Potential supervisors and their area of research expertise may be found at Department of Chemistry (Research): http://www.ch.cam.ac.uk/research

Visit the website: http://www.graduate.study.cam.ac.uk/courses/directory/pcchmpmch

Course detail

Educational aims of the MPhil programme:

- to give students with relevant experience at first degree level the opportunity to carry out focussed research in the discipline under close supervision; and

- to give students the opportunity to acquire or develop skills and expertise relevant to their research interests and a broader set of transferable skills.

Learning Outcomes

By the end of the programme, students will have:

- a comprehensive understanding of techniques, and a thorough knowledge of the literature, applicable to their own research;
- demonstrated originality in the application of knowledge, together with a practical understanding of how research and enquiry are used to create and interpret knowledge in their field;
- shown abilities in the critical evaluation of current research and research techniques and methodologies;
- demonstrated some self-direction and originality in tackling and solving problems, and acted autonomously in the planning and implementation of research.

Format

The MPhil involves minimal formal teaching. Students may attend the Department's programme of research seminars and other graduate courses, including the Transferable Skills programme that forms part of the PhD programme. Informal opportunities to develop research skills also exist through mentoring and other opportunities by fellow students and members of staff. However, most research training is provided within the research group structure and all students are assigned a research supervisor.

All graduate students receive termly reports written by their supervisors.

Assessment

The scheme of examination for the MPhil in Chemistry shall consist of a thesis, of not more than 15,000 words in length, exclusive of tables, footnotes, bibliography, and appendices, on a subject approved by the Degree Committee for the Faculty of Physics and Chemistry, submitted for examination at the end of 11 months. The examination shall include an oral examination on the thesis and on the general field of knowledge within which it falls. The thesis shall provide evidence to satisfy the Examiners that a candidate can design and carry out investigations, assess and interpret the results obtained, and place the work in the wider perspectives of the subject.

Continuing

The Department offers a PhD in Chemistry course and MPhil students can apply to continue as a graduate student on this course.

MPhil students currently studying a relevant course at the University of Cambridge will need to pass their MPhil course (if examined only by thesis) or obtain a minimum merit (if there is a marked element) in order to be eligible to continue onto the PhD in Chemistry.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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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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Chemistry as a discipline is growing and changing rapidly. The traditional divisions of Chemistry into analytical, inorganic, organic and physical chemistry no longer reflect the dynamic and multidisciplinary nature of the field. Read more
Chemistry as a discipline is growing and changing rapidly. The traditional divisions of Chemistry into analytical, inorganic, organic and physical chemistry no longer reflect the dynamic and multidisciplinary nature of the field. Chemistry is, in fact, the "central science", having relevance in areas such as molecular biology, molecular physics, materials science, molecular engineering, biotechnology, environmental science and drug design.

As a postgraduate student in the Department of Chemistry at the Hong Kong University of Science and Technology, you will have the chance to study in programs that reflect the current, central, position of Chemistry and you will learn from diverse, innovative faculty at the forefront of their fields of research.

Our mission is to offer research and instructional opportunities in the emerging areas of Chemistry while maintaining a program rooted in the basics of the discipline. Postgraduate programs emphasize training in original research focusing on fundamental, interdisciplinary and applied areas. Complementing our formal degree programs is an active seminar program allowing students to meet prominent and international scientists who are pioneering the creation of new chemical knowledge.

The Department now has 19 full-time faculty members and about 90 postgraduate students, a favorable ratio allowing students to interact closely with academics. The research environment is an exciting one and we take pride in the high quality of our programs.

The MPhil program is a research-based degree consisting of approved coursework and an original research thesis. It is designed with flexibility in order that students may tailor course selections according to their needs and interests in the field of Chemistry.

Submission and successful defense of a thesis based on original research are required to obtain the degree.

Facilities

The Department is well equipped with modern laboratories and state-of-the-art instrumentation. Equipment includes two 400 MHz FT-NMR and two 300 MHz NMR spectrometers, one mass spectrometer equipped with a GC-TOF module and a MALDI Micro module, one triple-quadrupole MS/MS system, an ion-trap MSn system, X-ray diffractometers, a Bruker FT-IR / FT-Raman system, a UV-Vis fluorimeter, GC / MS, HPLC.

Relevant central University facilities include the Materials Characterization and Preparation Facility, the Nanoelectronics Fabrication Facility and Environmental Central Facility, all offering a wide range of advanced instruments.

Computer facilities for postgraduate students include molecular graphic / modeling, quantum mechanics and molecular dynamics computations.

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Located in Canada's most enterprising city and neighboring one of the nation's best playgrounds - the Rockies - the Department of Chemistry's graduate program offers you the opportunity to collaborate with world-class researchers, work in highly sophisticated labs, and build the skills you need to pursue stimulating careers in both research and industry. Read more
Located in Canada's most enterprising city and neighboring one of the nation's best playgrounds - the Rockies - the Department of Chemistry's graduate program offers you the opportunity to collaborate with world-class researchers, work in highly sophisticated labs, and build the skills you need to pursue stimulating careers in both research and industry.

Among many other things, our 40 faculty members and 100+ graduate students work on advancing knowledge and finding solutions to problems regarding Chemistry for Cleaner Energy, Chemistry for Life and Health and Chemistry for the Quantum-Nano World that involve the following various research themes:
-Biological and Medicinal Chemistry
-Chemical Education Research
-Chemical Synthesis and Catalysis
-Computational Chemistry and Molecular Modeling
-Energy and Environment
-Nanotechnology and Materials Chemistry

The MSc (Thesis-based) is a full-time degree with an average completion time of two years, typically requiring a Bachelor's degree in the same or a closely related discipline.

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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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Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Read more
Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Not only must further research be done, but industry and business also need environmental specialists with a strong background in natural sciences. As new regulations and European Union directives are adopted in practice, people with knowledge of recent scientific research are required.

Upon graduating from the Programme you will have competence in:
-Applying experimental, computational and statistical methods to obtain and analyse atmospheric and environmental data.
-Knowledge applicable to solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.
-Making systematic and innovative use of investigation or experimentation to discover new knowledge.
-Reporting results in a clear and logical manner.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

The six study lines are as follows:
Aerosol Physics
Aerosol particles are tiny liquid or solid particles floating in the air. Aerosol physics is essential for our understanding of air quality, climate change and production of nanomaterials. Aerosol scientists investigate a large variety of phenomena associated with atmospheric aerosol particles and related gas-to-particle conversion using constantly improving experimental, theoretical, model-based and data analysis methods. As a graduate of this line you will be an expert in the most recent theoretical concepts, measurement techniques and computational methods applied in aerosol research.

Geophysics of the Hydrosphere
Hydrospheric geophysics studies water in all of its forms using physical methods. It includes hydrology, cryology, and physical oceanography. Hydrology includes the study of surface waters such as lakes and rivers, global and local hydrological cycles as well as water resources and geohydrology, the study of groundwater. Cryology focuses on snow and ice phenomena including glacier mass balance and dynamics, sea ice physics, snow cover effects and ground frost. Physical oceanography covers saline water bodies, focusing on describing their dynamics, both large scale circulation and water masses, and local phenomena such as surface waves, upwelling, tides, and ocean acoustics. Scientists study the hydrosphere through field measurements, large and small scale modelling, and formulating mathematical descriptions of the processes.

Meteorology
Meteorology is the physics of the atmosphere. Its best-known application is weather forecasting, but meteorological knowledge is also essential for understanding, predicting and mitigating climate change. Meteorologists study atmospheric phenomena across a wide range of space and time scales using theory, model simulations and observations. The field of meteorology is a forerunner in computing: the development of chaos theory, for example, was triggered by the unexpected behaviour of a meteorological computer model. Meteorology in ATM-MP is further divided into dynamic meteorology and biometeorology. Dynamic meteorology is about large-scale atmospheric dynamics, modelling and observation techniques, whereas biometeorology focuses on interactions between the atmosphere and the underlying surface by combining observations and modelling to study the flows of greenhouse gases and energy with links to biogeochemical cycles, for example. As a graduate of the meteorology line, you will be an expert in atmospheric phenomena who can produce valuable new information and share your knowledge.

Biogeochemical Cycles
Biogeochemistry studies the processes involved in cycling of elements in terrestrial and aquatic ecosystems by integrating physics, meteorology, geophysics, chemistry, geology and biology. Besides natural ecosystems, it also studies systems altered by human activity such as forests under different management regimes, drained peatlands, lakes loaded by excess nutrients and urban environments. The most important elements and substances studied are carbon, nitrogen, sulphur, water and phosphorus, which are vital for ecosystem functioning and processes such as photosynthesis. Biogeochemistry often focuses on the interphases of scientific disciplines and by doing so, it also combines different research methods. It treats ecosystems as open entities which are closely connected to the atmosphere and lithosphere. You will thus get versatile training in environmental issues and research techniques. As a graduate of this line you will be an expert in the functioning of ecosystems and the interactions between ecosystems and the atmosphere/hydrosphere/lithosphere in the context of global change. You will have knowledge applicable for solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.

Remote Sensing
Remote sensing allows the collection of information about the atmosphere, oceans and land surfaces. Various techniques are applied for monitoring the state and dynamics of the Earth system from the ground, aircraft or satellites. While Lidar and radar scan from the surface or mounted on aircraft, instruments on polar orbiting or geostationary satellites permit measurements worldwide. In atmospheric sciences remote sensing has found numerous applications such as observations of greenhouse and other trace gases, aerosols, water vapour, clouds and precipitation, as well as surface observations, for example of vegetation, fire activity, snow cover, sea ice and oceanic parameters such as phytoplankton. Synergistic satellite data analysis enables the study of important processes and feedback in the climate system. Remote sensing advances climate research, weather forecasting, air quality studies, aviation safety and the renewable energy industry. As a graduate of the remote sensing line you will have broad expertise in the operational principles of remote sensing instruments as well as methods of data collection, analysis and interpretation.

Atmospheric Chemistry and Analysis
Atmospheric chemistry studies the composition and reactions of the molecules that make up the atmosphere, including atmospheric trace constituents and their role in chemical, geological and biological processes, including human influence. The low concentrations and high reactivity of these trace molecules place stringent requirements on the measurement and modelling methods used to study them. Analytical chemistry is the science of obtaining, processing, and communicating information about the composition and structure of matter and plays an essential role in the development of science. Environmental analysis consists of the most recent procedures for sampling, sample preparation and sample analysis and learning how to choose the best analytical methods for different environmental samples. Physical atmospheric chemistry studies focus on the reaction types and reaction mechanisms occurring in the atmosphere, with emphasis on reaction kinetics, thermodynamics and modelling methods. As a graduate of this line you will have understanding of the chemical processes of the atmosphere and the latest environmental analytical methods, so you will have vital skills for environmental research.

Programme Structure

The basic degree in the Programme is the Master of Science (MSc). The scope of the degree is 120 credits (ECTS). As a prerequisite you will need to have a relevant Bachelor’s degree. The possible major subjects are Physics, Meteorology, Geophysics, Chemistry, and Forest Ecology. The programme is designed to be completed in two years. Studies in ATM-MP consist of various courses and project work: lecture courses, seminars, laboratory work and intensive courses.

Your first year of studies will consist mainly of lecture courses. During the second year, you must also participate in the seminar course and give a presentation yourself. There is also a project course, which may contain laboratory work, data analysis, or theoretical or model studies. You will have to prepare a short, written report of the project. There are also several summer and winter schools as well as field courses for students in the Programme. Many of the courses take place at the Hyytiälä Forestry Field Station in Southern Finland. The intensive courses typically last 5–12 days and include a concise daily programme with lectures, exercises and group work.

Career Prospects

There is a global need for experts with multidisciplinary education in atmospheric and environmental issues. Governmental environmental agencies need people who are able to interpret new scientific results as a basis for future legislation. Industry, transportation and businesses need to be able to adapt to new regulations.

As a Master of Science graduating from the Programme you will have a strong background of working with environmental issues. You will have the ability to find innovative solutions to complex problems in the field of environmental sciences, climate change and weather forecasting. Graduates of the Programme have found employment in Meteorological Institutes and Environmental Administration in Finland and other countries, companies manufacturing instrumentation for atmospheric and environmental measurements and analysis, and consultancy companies. The Master's degree in ATM-MP also gives you a good background if you intend to proceed to doctoral level studies.

Internationalization

The Programme offers an international study environment with more than 30% of the students and teaching staff coming from abroad.

The ATM-MP is part of a Nordic Nordplus network in Atmosphere-Biosphere Studies, which gives you good opportunities to take courses currently in fourteen Nordic and Baltic universities. There are also several Erasmus agreements with European universities. The PanEurasian Experiment (PEEX) project provides you with opportunities to carry out part of your studies especially in China and Russia.

Research Focus

All the units teaching in the Programme belong to the National Centre of Excellence (FCoE) in Atmospheric Science – From Molecular and Biological processes to the Global Climate (ATM), which is a multidisciplinary team of the Departments of Physics, Forest Sciences and Chemistry at the University of Helsinki, the Department of Applied Physics at the University of Eastern Finland (Kuopio) and the Finnish Meteorological Institute.

The main objective of FCoE ATM is to quantify the feedbacks between the atmosphere and biosphere in a changing climate. The main focus of the research is on investigating the following topics:
1. Understanding the climatic feedbacks and forcing mechanisms related to aerosols, clouds, precipitation and biogeochemical cycles.
2. Developing, refining and utilising the newest measurement and modelling techniques, from quantum chemistry to observations and models of global earth systems.
3. Creating a comprehensive understanding of the role of atmospheric clusters and aerosol particles in regional and global biogeochemical cycles of water, carbon, sulphur, nitrogen and their linkages to atmospheric chemistry.
4. Integrating the results in the context of understanding regional and global Earth systems.

In addition to the research focus of FCoE, current research in hydrospheric geophysics at Helsinki University has an emphasis on cryology, with a focus on the effect of aerosols on Indian glaciers, the impact of climate change on the Arctic environment, the dynamics of the Austfonna ice cap in Svalbard, and the winter season in the coastal zone of the Baltic Sea.

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The Dutch Master's Selection Guide (Keuzegids Masters 2016) ranked Utrecht University's Nanomaterials Science programme as the best in the field of Chemistry in the Netherlands. Read more

Nanomaterials Science Judged Best in the Field

The Dutch Master's Selection Guide (Keuzegids Masters 2016) ranked Utrecht University's Nanomaterials Science programme as the best in the field of Chemistry in the Netherlands.
Students chose the Master's programme Nanomaterials Science at Utrecht University as the best programme in the field in the yearly review 'Beste studies' by Elsevier.

Functional materials, organic and inorganic, play an important role in much of modern physics, chemistry and technology.

In this field there is an obvious trend towards systems which operate on the nanoscale. This includes the exciting areas of nanoscience, nanotechnology and catalysis: the fundamental units such as macromolecules, quantum structures and catalysts have dimensions on the nanometre scale. The challenges in this area of science include:
* the synthesis of functional units and their manipulation to form novel and 'artificial' solids;
* the study of fundamental processes in (nano)structured systems and the development of theory and models to explain new phenomena;
* the elucidation of structure-property relations;
* materials engineering and the application of materials in improved and novel devices.
* the elucidation of structure-property relations;
* materials engineering and the application of materials in improved and novel devices.

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This MSc course will appeal if you wish to explore materials science from a multidisciplinary and collaborative perspective. The programme covers classical and quantum physics, with an emphasis on diamond and application-driven themes. Read more
This MSc course will appeal if you wish to explore materials science from a multidisciplinary and collaborative perspective. The programme covers classical and quantum physics, with an emphasis on diamond and application-driven themes. In addition to comprehensive transferable skills training, our CDT cultivates all the skills you will need to work with any high-performance and advanced material in a variety of settings.

During your course, you’ll have the opportunity to make full use of our excellent research facilities, which include state-of-the-art suites for magnetic resonance, electrochemical analysis, abrasion imaging and spectroscopy.

The skills you gain will leave you well placed to enter a number of academic and industrial sectors, including materials, instrumentation, defence and security, aerospace, telecommunications, electronics and manufacturing.

Structure

The course spans 1 year, with the first 20 weeks being lecture-based, providing you with a diverse toolbox in diamond science to complete a successful 20 week research project.
Terms 1 and 2 (20 weeks):
-Methods of Material Synthesis
-Properties and Characterisation of Materials
-Defects and Dopants
-Theory and Modelling of Materials
-Manufacturing the Future
-Surfaces, Interfaces and Coatings
-Devices and Fabrication
-Diamond Photonics and Quantum Devices
-Applications of High Performance Materials
-Electrochemistry and Sensors (Optional)
-Biomedical Optics and Applications (Optional)

Research Project (20 weeks):
Undertake a project in our world-leading research groups either for one 20-week or two 10-week research projects.

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Graduate education in Computational Science and Engineering (CMSE) at Koç University is offered through an interdisciplinary program among the Departments of the College of Arts and Sciences and the College of Engineering. Read more
Graduate education in Computational Science and Engineering (CMSE) at Koç University is offered through an interdisciplinary program among the Departments of the College of Arts and Sciences and the College of Engineering. In this program graduate students are trained on modern computational science techniques and their applications to solve scientific and engineering problems. New technological problems and associated research challenges heavily depend on computational modeling and problem solving. Because of the availability of powerful and inexpensive computers model-based computational experimentation is now a standard approach to analysis and design of complex systems where real experiments can be expensive or infeasible. Graduates of the CMSE Program should be capable of formulating solutions to computational problems through the use of multidisciplinary knowledge gained from a combination of classroom and laboratory experiences in basic sciences and engineering. Individuals with B.S. degrees in biology, chemistry, physics, and related engineering disciplines should apply for graduate study in the CMSE Program.

Current faculty projects and research interests:

• Computational Biology & Bioinformatics
• Computational Chemistry
• Computational Physics
• Molecular Dynamics and Simulation
• Parallel and High Performance Computing
• Computational Fluid Dynamics
• Dynamical and Stochastic Systems
• Quantum Mechanics of Many Body Systems
• Electronic Design Automation
• Numerical Methods
• Simulation of Material Synthesis
• Structural Dynamics
• Biomedical Modeling and Simulation
• Virtual Environments

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Many future applications within electronics, telecommunication, information systems, medicine, and natural or artificial biosystems build upon progress in nanoscale technologies. Read more
Many future applications within electronics, telecommunication, information systems, medicine, and natural or artificial biosystems build upon progress in nanoscale technologies. On the nanoscale, new physical, chemical, and biological properties become important, and research often takes place on the borders between these disciplines. Proficiency in theoretical and practical aspects of these fields will therefore be important both within the industry and the academia. The nanotechnology programme is based on both physics and chemistry and will give you a thorough, yet advanced knowledge of the nanoscale system properties.

Programme description

Besides equipping you with a solid theoretical background in the physics, chemistry and technology of nanoscale systems the programme will also provide you with unique competencies, such as knowledge of the innovative possibilities of nanotechnology and ample hands-on experience in experimental techniques. You will be working in the MC2 cleanroom environment (one of few cleanrooms worldwide to allow Master's level student projects in the facilities) and other modern laboratories for both manufacturing and analysis, already during your first year. You will have the possibility to continue working in the laboratories as part of your Master's thesis.

Science on the nanoscale is typically carried out either in a “bottom-up” approach, where functional nanostructures are formed through molecular interactions, or by nanostructuring in a “top-down” approach. The core curriculum consists of a handful of compulsory courses that create a solid basis for both approaches. The programme also includes several semi-compulsory courses, creating a number of possible tracks within the program, as well as a number of courses that can be chosen to provide you with a deeper knowledge of your choice of area within nanotechnology. The conclusion of the programme consists of a thesis based on a half- or full-year research work carried out with some of the researchers in the area, either within our departments or with industrial partners.

The research conducted comprises three profile areas:
Nanophysics research, with a top-down perspective, includes studies of engineered nanosystems such as quantum computers, nanoelectronics and spintronics, applications and fundamental science of carbon nanotubes and graphene, nanosensors for bioanalytics and measurement technologies, and nano-optics with applications in, e.g. efficient solar energy production.

Nanochemistry, with a bottom-up focus, targets the ultimate miniaturization of electronics and photonics, molecular electronics, and the development of molecular methods to create nanodevices.

The Nanobiophysics activity, which forms a bridge between the other two and focuses on nanofluidics, soft matter nanotechnology, DNA-based self-assembly and biomimetic material science.

As a unique feature of the programme you will become part of this research and have access to our cleanroom and other world-class facilities for labs and group projects.

The Master’s Programme in Nanotechnology is tailored towards students aiming at international careers in the field of nanoscience and nanotechnology, both in fundamental nanoscience and in the design and creation of components on the nanoscale.

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This is a two-year MSc offered by Royal Holloway as part of its South East Physics Network Partnership (SEPnet). SEPnet is a consortium of six universities. Read more
This is a two-year MSc offered by Royal Holloway as part of its South East Physics Network Partnership (SEPnet). SEPnet is a consortium of six universities: University of Kent, Queen Mary University of London, Royal Holloway University of London, University of Southampton, University of Surrey, and University of Sussex. This consortium consists of around 160 academics, with an exceptionally wide range of expertise.

The first year consists mainly of taught courses in the University of London; the second research year can be at Royal Holloway or one of the other consortium members. This is a unique opportunity to collaborate with physics research groups and partner institutions in both the UK and Europe. You will benefit from consortium led events as well as state of the art video conferencing.

With some of the leading physics departments in the world, all the universities have their own accolades in both urban and countryside locations, with a wide choice of accommodation options, sporting facilities, international student organisations and careers services. South East England, with its close connections to continental Europe by air, Eurotunnel, and cross channel ferries, is an ideal environment for international students.

See the website https://www.royalholloway.ac.uk/physics/coursefinder/mscphysics(euromasters).aspx

Why choose this course?

- The course is taught in collaboration with other University of London Colleges and the Universities of Kent, Southampton, Surrey and Sussex, providing an incomparably wide range of options.

- The Department of Physics at Royal Holloway is known internationally for its top-class research. Our staff carry out research at the cutting edge of Nanoscience and Nanotechnology, Experimental Quantum Computing, Quantum Matter at Low Temperatures, Theoretical Physics, and Biophysics, as well as other areas.

- We offer exceptional teaching quality and are consistently near the top of the league tables.

- The Department has strong links with leading international facilities, including CERN, ISIS and Diamond.

- We hold a regular series of colloquia and seminars on important research topics and host a number of guest lectures from external organisations.

Department research and industry highlights

- The Physics Department is one of the major centres for Physics research within the University of London.

- We have excellent clean rooms for the nanofabrication and testing of devices within the centre for nanophysics and nanotechnology.

- The London Low Temperature Laboratory is a centre for fundamental research in the mK and μK temperature regime and the development of new instrumentation and thermometry.

- The Hubbard Theory Institute combines theoretical studies of strongly correlated matter with experimental activities on the Harwell Campus.

On completion of the course graduates will have:

- a systematic understanding of knowledge, and a critical awareness of current problems and/or new insights at the forefront of the discipline

- a comprehensive understanding of techniques applicable to their own research or advanced scholarship

- originality in the application of knowledge, together with a practical understanding of how established techniques of research and

- enquiry are used to create and interpret knowledge in the discipline.

Assessment

Assessment is carried out by a variety of methods including coursework, examinations and a dissertation.

Employability & career opportunities

Our graduates are highly employable and, in recent years, have entered many different physics-related areas, including careers in industry, information technology and finance. This course also equips you with the subject knowledge and a solid foundation for continued studies in physics, and many of our graduates have gone on to study for a PhD.

How to apply

Applications for entry to all our full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

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The Nanoscale Engineering master is a two-year program corresponding to 120 ECTS credits. Students receive a universal and profound training in physics, materials science and electronics at the nanoscale, but also in nanobiotechnology. Read more
The Nanoscale Engineering master is a two-year program corresponding to 120 ECTS credits. Students receive a universal and profound training in physics, materials science and electronics at the nanoscale, but also in nanobiotechnology.

Elective courses can be followed by the students in their desired area of specialization and/or to broaden their horizons. The entire curriculum is taught in English.

A key educational concept of the program is that each student is immersed in a high-quality research environment for at least half of the time in the curriculum. Throughout the academic year, lab practicals and projects are carried out in research institutions that participate in the program, and thesis projects are undertaken in research laboratories or in nanotechnology companies.

In addition to the scientific and technological aspects, ethical issues and the societal impact of nanotechnology, as well as business considerations, are addressed in specialized seminars and courses.

Structure of the Curriculum

First Year (60 ECTS)

The major part of semester 1 is dedicated to lectures: The students follow 7 courses from the core modules and 2 elective modules. Laboratory practicals and mini-projects ensure a smooth transition into semester 2 with its four-month internship in a research group. This internship is prepared in semester 1 already with a dedicated literature survey. Seminars of speakers from both academia and industry complement the educational program throughout the entire first year.

Second Year (60 ECTS)

Semester 3 is again dedicated to lectures, featuring 5 slots for core modules and 3 for electives, as well as some ancillary courses. The entirety of semester 4 is taken up by the six-month Master thesis project, which can be conducted in a research laboratory or in a company, in France or abroad. As in the first year, seminars of speakers from both academia and industry complement the educational program.

Modules and Courses

Core Modules

These courses impart the fundamental knowledge in the nanotechnology field applied to physics, electronics, optics, materials science and biotechnology. Students are required to follow at least twelve core module courses during the two-year program.

Core modules in the first year There are four obligatory core modules in the first year:

Introduction to Nanoscale Engineering
Micro- and Nanofabrication, part 1
Characterization Tools for Nanostructures
Quantum Engineering

Furthermore, there is a remedial physics course to which students are assigned based on the results of a physics test at the beginning of semester 1:

Basics of Physics

Finally, students have to select a minimum of three courses from the following list for their first year:

Solid State Physics at the Nanoscale
Continuum Mechanics
Physics of Semiconductors, part 1
Physical Chemistry and Molecular Interactions
Biomolecules, Cells, and Biomimetic Systems

Core modules in the second year Students have to choose at least four courses from the following selection for their second year:

Nano-Optics and Biophotonics
Surface-Analysis Techniques
Physics of Semiconductors, part 2
Micro- and Nanofluidics
Micro- and Nanofabrication, part 2
Biosensors and Biochips
Computer Modeling of Nanoscale Systems

Elective Modules

These courses cover a wide range of nanotechnology-related disciplines and thus allow the students to specialize according to their preferences as well as to broaden their expertise. Elective modules in the first year Three courses from the following list have to be chosen for the first year:

Nanomechanics
MEMS and NEMS
Introduction to System Design
Drug-Delivery Systems

Elective modules in the second year Students follow a minimum of three courses from the following selection in the second year:

Multi-Domain System Integration
Solar Cells and Photovoltaics
Nanomagnetism and Spintronics
Nanoelectronics
Tissue and Cell Engineering

Experimental Modules

Students conduct lab practicals that are integrated into the various courses, during which they familiarize themselves hands-on with all standard techniques for fabrication and characterization of nanostructures. They furthermore have the opportunity to work more independently on individual or group projects.

Ancillary Courses and Seminars

This module deals with complementary know-how, relevant both for academia and in an industrial environment. Students follow a course on intellectual-property issues. Ethical aspects and the societal impact of nanotechnology are covered in specialized seminars, which also allow for networking with national and international nanotechnology companies and research laboratories. Communication skills are likewise developed through written and oral presentations of all experimental work that is carried out during the Master program.

Internship

In the second semester, students conduct two-month internships in two of the research laboratories participating in the program. The students choose their projects and come into contact with their host laboratories earlier in the academic year already, by spending some time in these laboratories to carry out an extensive literature survey and to prepare their research projects under the guidance of their supervisors.

Master Thesis Project

The final six-month period of the program is devoted to the master project, which can be carried out either in an academic research laboratory or in an industrial environment. Students have the option to conduct their thesis project anywhere in France or abroad.

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Applying the laws of physics in real-life situations, ranging from measuring brain activity to designing new materials and investigating space objects. Read more
Applying the laws of physics in real-life situations, ranging from measuring brain activity to designing new materials and investigating space objects .

Would you rather specialise in pure physics or discover the interface between physics and astronomy, mathematics, chemistry or biology? The choice is yours. At Radboud University, you can choose from six specialisations and within each specialisation you’ll have plenty of room to customise your programme. We guarantee the highest quality for all specialisation programmes, resulting in number one rates by the Dutch ‘Keuzegids Masters’ for three years running.

In your internship(s), you can dive into theoretical physics or perform your own experiments: discover new material properties in Europe’s highest magnetic fields or with unique free electron lasers, study space objects with the telescopes on top of the Huygens Building or unravel brain activity with MRIs. It’s all possible on the Radboud campus. That’s why many international physicists come here to perform their experiments. Take Andre Geim and Konstantin Novoselov, who revealed the amazing properties of graphene in our High Field Magnet Laboratory. In 2010, they received the Nobel Prize in Physics for those discoveries.

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

Specialisations of Physics and Astronomy

- Particle and Astrophysics
In this Master’s specialisation you’ll unravel questions like: What are the most elementary particles that the universe consists of? What did our universe look like in the earliest stages of its existence? And how will it evolve? One of the topics is the Higgs particle, which is partially a Nijmegen discovery.

- Physics of Molecules and Materials
This specialisation focuses on the structure and properties of materials. You’ll work at the ‘terra incognita’ between quantum and classical physics, which is of great importance for designing next-generation materials and devices.

- Neuroscience
In this specialisation you’ll use your physics background to understand the communication between neurons in the brain. This fundamental knowledge can be applied in all kinds of devices, including hearing aids or Google glasses.

- Science in Society
This specialisation will equip you with the tools and skills to become a professional intermediary between science and society. You’ll learn to analyse (governmental) science communication and connect scientific knowledge with divergent perspectives and interests of various stakeholders.

- Science, Management and Innovation
This specialisation will teach you what is happening in the world of business and public administration, how innovation is managed in company strategies, how government designs policy and how that interacts with societal challenges.

- Science and Education (in Dutch)
Do you want to become a secondary school teacher in the Netherlands? In this Dutch-taught specialisation you’ll get the necessary didactic background and extensive experience in the classroom.

Why study Physics and Astronomy at Radboud University?

- It’s the best Master’s programme of its kind in the Netherlands, according to the Keuzegids Masters.
- Teaching takes place in a stimulating, collegial setting with small groups. This ensures that at Radboud University you’ll get plenty of one-on-one time with your internship supervisor.
- We have a multidisciplinary approach: you not only can specialise in Physics, but also in astrophysics, biophysics, mathematical physics, chemical physics or materials science.
- You’ll spend one year on research, and thus get an extensive experience in scientific methods.
- Radboud University hosts multiple state-of-the-art research facilities, such as the High Field Magnet Laboratory , FELIX laser laboratory, Nanolab and neuroimaging facilities (MRI, MEG, EEG, TMS). We also participate in the LHC particle accelerator in Geneva, the Pierre Auger Observatory in Argentina and various other large-scale research projects.
- On average, our graduates find a job within 2 months after graduating. A majority of these jobs are PhD positions at universities in the Netherlands and abroad.

Quality label

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

Career prospects

All specialisations of this Master’s programme are an excellent preparation for a career in research, either at a university, at an institute or at a company. However, many of our students end up in other business or government positions as well. Whatever job you aspire, you can certainly make use of the fact that you have learned to:
- Think in an abstract way
- Solve complex problems
- Make accurate approximations
- Combine theory and experiments

PhD positions

If you would like to have a career in science, it’s possible to apply for a PhD position at Radboud University. Of course, you can also apply at any other university anywhere in the world.

Positions in business or governmental organisations

To get an idea the various career opportunities, a sample of jobs performed by our alumni:
- Actuarial trainee at Talent & Pro
- Consultant at Accenture
- ECO Operations Manager at Ofgem
- Scientist at SRON Netherlands Institute for Space Research
- Technology strategy Manager at Accenture
- Consultant Billing at KPN
- Communications advisor at the Foundation for Fundamental Research on Matter (FOM)
- Systems analysis engineer at Thales
- Technical consultant at UL Transaction Security
- Business analyst at Capgemini

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

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Our Physics MSc is highly flexible, giving you the opportunity to structure your course to meet your individual career aspirations. Read more
Our Physics MSc is highly flexible, giving you the opportunity to structure your course to meet your individual career aspirations.

The course gives you the opportunity to broaden and deepen your knowledge and skills in physics, at the forefront of research in the area. This will help to prepare you to progress to PhD study, or to work in an industrial or other business related area.

A key feature of the course is that you can choose to study a wide range of optional modules or focus on a particular area of research expertise according to your interests and future career aspirations.

Under the umbrella of an MSc in physics, you can specialise in astrophysics, bionanophysics, soft matter physics, condensed matter physics, quantum technology, optical materials or medical imaging. Or you can take a diverse range of modules to suit your interests and keep their options open.

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