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This programme provides students with thorough education and training needed to understand different aspects of the field of material sciences. Read more
This programme provides students with thorough education and training needed to understand different aspects of the field of material sciences. It aligns with similar MSc programmes at the University of Liverpool and is delivered entirely in English.

The programme contains taught modules covering areas from synthetic chemistry to nanotechnology to analytical methods and instrumentation. It places strong emphasis on the development of project management and personal skills. After completing the taught modules, you will engage in a 12-month extensive research project of your choice that leads to submission of a dissertation.

A customised learning plan is designed for you, taking into account your background and career aspirations. Successful completion of the programme leads to the award of an MRes degree from the University of Liverpool.

What are benefits of the programme?

• Taught by international staff who are experts in various fields of chemistry
• Provides a range of critical interdisciplinary research skills
• Offers strong theoretical background, practical instrumentation skills and an intensive research project
• Excellent preparation for PhD programmes abroad and in Chinese universities
• Help you develop career-enhancing key personal and employable skills such as time management, report writing, team-building and networking, and project management
• The department has strong link to local and international industries
• XJTLU is in an attractive location with many biotechnology companies nearby in BioBay and the Cold Spring Harbour Asia Centre

Core Modules

• Synthetic Chemistry
• Natural Products
• Peptide/Protein Chemistry
• Nanotechnology
• Analytical Methods and Instruments

What are my career prospects?

• Successful graduates can establish careers in a wide range of industries including:
• Chemical and material
• Pharmaceutical
• Biotechnology
• Food and beverages (quality assurance and new formulation)
• Analytical labs

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Pursuing a research degree at the School of Chemistry could be one of the best experiences of your life. Read more

Research profile

Pursuing a research degree at the School of Chemistry could be one of the best experiences of your life.

In addition to gaining research skills, making friends, meeting eminent researchers and being part of the research community, a research degree will help you to develop invaluable transferable skills which you can apply to academic life or a variety of professions outside of academia.

The Chemistry/Biology Interface

This is a broad area, with particular strengths in the areas of protein structure and function, mechanistic enzymology, proteomics, peptide and protein synthesis, protein folding, recombinant and synthetic DNA methodology, biologically targeted synthesis and the application of high throughput and combinatorial approaches. We also focus on biophysical chemistry, the development and application of physicochemical techniques to biological systems. This includes mass spectrometry, advanced spectroscopy and microscopy, as applied to proteins, enzymes, DNA, membranes and biosensors.

Experimental & Theoretical Chemical Physics

This is the fundamental study of molecular properties and processes. Areas of expertise include probing molecular structure in the gas phase, clusters and nanoparticles, the development and application of physicochemical techniques such as mass spectoscropy to molecular systems and the EaStCHEM surface science group, who study complex molecules on surfaces, probing the structure property-relationships employed in heterogeneous catalysis. A major feature is in Silico Scotland, a world-class research computing facility.

Synthesis

This research area encompasses the synthesis and characterisation of organic and inorganic compounds, including those with application in homogeneous catalysis, nanotechnology, coordination chemistry, ligand design and supramolecular chemistry, asymmetric catalysis, heterocyclic chemistry and the development of synthetic methods and strategies leading to the synthesis of biologically important molecules (including drug discovery). The development of innovative synthetic and characterisation methodologies (particularly in structural chemistry) is a key feature, and we specialise in structural chemistry at extremely high pressures.

Materials Chemistry

The EaStCHEM Materials group is one of the largest in the UK. Areas of strength include the design, synthesis and characterisation of functional (for example magnetic, superconducting and electronic) materials; strongly correlated electronic materials, battery and fuel cell materials and devices, porous solids, fundamental and applied electrochemistry polymer microarray technologies and technique development for materials and nanomaterials analysis.

Training and support

Students attend regular research talks, visiting speaker symposia, an annual residential meeting in the Scottish Highlands, and lecture courses on specialised techniques and safety. Students are encouraged to participate in transferable skills and computing courses, public awareness of science activities, undergraduate teaching and to represent the School at national and international conferences.

Facilities

Our facilities are among the best in the world, offering an outstanding range of capabilities. You’ll be working in recently refurbished laboratories that meet the highest possible standards, packed with state-of-the-art equipment for both analysis and synthesis.

For NMR in the solution and solid state, we have 10 spectrometers at field strengths from 200-800 MHz; mass spectrometry utilises EI, ESI, APCI, MALDI and FAB instrumentation, including LC and GC interfaces. New combinatorial chemistry laboratories, equipped with a modern fermentation unit, are available. We have excellent facilities for the synthesis and characterisation of bio-molecules, including advanced mass spectrometry and NMR stopped-flow spectrometers, EPR, HPLC, FPLC, AA.

World-class facilities are available for small molecule and macromolecular X-ray diffraction, utilising both single crystal and powder methods. Application of diffraction methods at high pressures is a particular strength, and we enjoy strong links to central facilities for neutron, muon and synchrotron science in the UK and further afield. We are one of the world's leading centres for gas-phase electron diffraction.

Also available are instruments for magnetic and electronic characterisation of materials (SQUID), electron microscopy (SEM, TEM), force-probe microscopy, high-resolution FTRaman and FT-IR, XPS and thermal analysis. We have also recently installed a new 1,000- tonne pressure chamber, to be used for the synthesis of materials at high pressures and temperatures. Fluorescence spectroscopy and microscopy instruments are available within the COSMIC Centre. Dedicated computational infrastructure is available, and we benefit from close links with the Edinburgh Parallel Computing Centre.

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Our MSc by Research in Life Sciences is a dedicated programme which is designed to enable students to further develop their research skills by focusing on a specialist project. Read more
Our MSc by Research in Life Sciences is a dedicated programme which is designed to enable students to further develop their research skills by focusing on a specialist project.

This course provides an opportunity for students from biological subjects to begin research in life sciences. Research may be conducted in a broad range of topics in biology and life sciences and as a researcher in the School, you will have the opportunity to collaborate with academics working on studies and projects.

The School undertakes research at molecular, cellular, organism and population levels in order to answer fundamental questions in molecular biology and biomedical science, forensic science and microbiology, animal and plant biology, and evolution and ecology.

Research Areas, Projects & Topics

Research is conducted within six substantial research groups. Scientists in Animal Behaviour, Cognition and Welfare explore the causes, functions and evolution of animal behaviour and the impact this has on animal welfare.

Those in Evolution and Ecology examine population dynamics and evolutionary processes at all levels of biological organisation. Researchers in Drug Design and Delivery focus on the application and efficacy of novel therapeutics, while academics working in Molecular Basis of Disease aim to understand disease at a molecular level in order to improve diagnosis and treatment.

Example Research Areas:
-Management of Native River Fish
-Forensic Analysis of Burnt Bones
-Public Perception of Dog Breed Types.

Example Research Projects:
-Peptide-guided drug delivery
-Cognitive phylogenetics in parrots
-Sexual selection dynamics in humans
-Protein Biochemistry with the development of cardiovascular disease
-Reconstruction of patterns of habitat colonisation using genetic methods.

How You Study

Due to the nature of postgraduate research programmes, the vast majority of your time will be spent in independent study and research. You will have meetings with your academic supervisor, however the regularity of these will vary depending on your own individual requirements, subject area, staff availability and the stage of your programme.

Facilities

Students have the chance to develop their professional and technical skills in specialist laboratories equipped for research in biomedical, forensic and pharmaceutical science, chemistry, microbiology, molecular biology and animal and plant biology.

Minster House, adjacent to the laboratories, provides specialist facilities for the study of animal behaviour. Our links with local, national and international partners may provide postgraduate students with opportunities for further collaboration with scientists in industry, government and academia.

Career and Personal Development

Postgraduate-level research provides you with the opportunity to advance your knowledge and develop your practical and intellectual skills. Graduates may pursue careers in research and science-related roles, while others may choose to move on to research at doctoral level.

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