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Masters Degrees (Bioprocessing)

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Are you a recent graduate, scientist, engineer or manager looking to develop your professional skills in multidisciplinary biotechnology and eager for a future in related sectors? The MSc in Biotechnology,. Read more
Are you a recent graduate, scientist, engineer or manager looking to develop your professional skills in multidisciplinary biotechnology and eager for a future in related sectors? The MSc in Biotechnology,
Bioprocessing and Business Management opens the door to these opportunities.

The course is delivered in partnership with our industry partners and Warwick Business School. During your studies you’ll develop a new sense of business acumen and gain in-depth knowledge of the underlying science and processing technologies. You’ll have access to specialised language classes, as well as a personal mentor who will help to improve your academic writing.

When you graduate, you’ll be ready to enter managerial and academic roles in several sectors, including the pharmaceutical industry, whether in large multinational companies or small to medium-sized enterprises.

Course structure

The course is a full time, twelve month taught programme with modular content, based around three strands:-
-Business Management
-Biotechnology & Molecular Biology
-Bioprocessing

The course programme focuses on:
-Manufacture of biochemicals, pharmaceuticals, devices and materials
-Genetic engineering and the fundamentals of biotechnology
-Business management, economics and finance
-Marketing management
-Commercialisation of products, IP
-Food, biotechnology and microbiological processing
-Fuels and energy
-Industries based on renewable and sustainable resources
-Production technologies
-Plant design and economic analysis

Students will be required to complete nine core modules. They must also select a further three elective modules. Teaching will be by interactive lectures, short question & answer sessions and small group interactive workshops/tutorials. Individual and team learning will be used for case study analysis.

All students will be required to undertake a project dissertation. Students will be encouraged to propose their own project title (selection subject to availability of an appropriate supervisor) although a range of potential titles will be offered. Projects will be non-laboratory based and generally undertaken at the University of Warwick under the supervision of an approved tutor.

Core Modules

-The fundamentals of biotechnology
-Molecular biology and genetic engineering
-Biochemical engineering
-Bioproduct plant design and economic analysis
-Business strategy
-Accounting and financial management
-Marketing management
-Entrepreneurship & commercialisation
-Biopharmaceutical product & clinical development
-Project

Elective Modules

(Availability dependent on demand)
-Microbiomics & metagenomics
-Environmental protection, risk assessment and safety
-Impact of biotechnology on the use of natural resources
-Fundamental principles of drug discovery
-E-business: Technology and management
-Chemotherapy of infectious disease
-Vaccines and gene therapy
-Laboratory Skills

Assessment

One third of the final mark will be derived from the project dissertation.

Two thirds of the final mark will be derived from assessments of the 9 core and 3 elective modules. Modules will be assessed by means of a combination of written course work, individual/group seminar presentations and a multi-choice or short answer examination. These assessments will take place during or shortly after completion of each module.

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The 100% online Masters in Biopharmaceutical medicine has been designed in extensive collaboration with Industry to provide graduates with a range of cutting-edge skills in Biopharmaceutical Science and Medical Biotechnology thereby making them highly employable within the Biotechnology, Biopharmaceutical and Medical Biotechnology Industries. Read more

100% online master in Biopharmaceutical medicine

The 100% online Masters in Biopharmaceutical medicine has been designed in extensive collaboration with Industry to provide graduates with a range of cutting-edge skills in Biopharmaceutical Science and Medical Biotechnology thereby making them highly employable within the Biotechnology, Biopharmaceutical and Medical Biotechnology Industries.

Biopharma study

Biopharma is the study of producing biological drugs and biological medicinal products, including monoclonal antibodies, vaccines, gene therapies, cell therapies etc.

Forefront of medical technology

This Masters in Bio Pharmaceutical science is for you, if you wish to make a difference and be at the forefront of medical technology, involved in the manufacture of novel medicines from living cells, immunodiagnostics, bioanalytics, process validation and process optimization. Medical Biotechnology and Biopharmaceutical Processing are among the fastest growing industry sectors internationally at present. And this Masters provides a strong industry focus on the latest developments in biopharmaceutical manufacturing including full product characterisation, single use technologies, PAT and QbD.

Biopharmaceutical career opportunities

This MSc has been specifically designed to meet the requirements of the biopharma industry. It is suitable for Science and Engineering graduates who wish to up-skill or cross-skill for a career in biopharmaceuticals. A wide range of career options exist for graduates of this MSc, including employment in the biotechnology, pharmaceutical and medical devices industries. Recent graduates are employed in companies such as Pfizer, MSD, Lilly, Amgen, Janssen and Takeda. Post-graduates may also find employment more broadly within the Healthcare sector and in areas of Research and Development.

100% Online master in Biopharmaceutical medicine

The MSc is delivered 100% online; however it is possible to choose electives that will get you extensive hands-on practical experience at the award winning NIBRT facility in Dublin, in an environment that replicates the most modern industrial bioprocessing facility. NIBRT, the National Institute for Bioprocessing Research and Training, is a world-class institute that provides training and research solutions for the bioprocessing industry and undertakes leading edge research in key areas of bioprocessing in collaboration with industry.

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This course will enhance your understanding of key concepts in biotechnology and environmental sustainability and their practical application from innovation to commercialisation. Read more
This course will enhance your understanding of key concepts in biotechnology and environmental sustainability and their practical application from innovation to commercialisation.

This course is designed to enhance your career in a wide range of sectors, such as biorenewables, bioremediation and bioprocessing in which environmental sustainability is a key consideration. It will enable you to undertake a variety of fulfilling roles from research, and product and technology development to environmental protection and other leadership positions.

Biotechnology for Environmental Sustainability will equip you with broad theoretical knowledge and critical understanding of advanced principles in biotechnology. You’ll also gain the practical skills required to underpin a career within an industrial or research setting.

You’ll be supported by an active research group with varied interests and links with relevant industries, research institutes and other organisations.

See the website http://www.napier.ac.uk/en/Courses/MSc-Biotechnology-for-Environmental-Sustainability-Postgraduate-FullTime

What you'll learn

This course provides you with in-depth knowledge and critical understanding of key concepts in fermentation and bioprocessing, environmental microbiology, business planning and environmental policy which are relevant to the application of commercial-scale biotechnologies in an environmentally sustainable manner.

You’ll study the scientific concepts that underpin modern biotechnologies and how innovations can be exploited for the development of products and processes such as biofuels, novel bioactive compounds and waste conversion technologies. You’ll also explore the bioethical, socio-economic and regulatory aspects of environmental sustainability and the role of biotechnologies in environmental protection.

There is an emphasis on developing your practical laboratory skills with various opportunities for hands-on experience in a range of current techniques and practices such as fermentation and environmental monitoring. In your final trimester you’ll undertake an independent project within a vibrant research team, allowing you to apply and further develop your technical, research and professional skills. There may be the opportunity to conduct your research project with one of our Edinburgh Napier start-up companies or externally in a relevant organisation or industry.

You’ll also develop key skills including communication, problem solving, team work, project management, and leadership. You’ll learn through interactive lectures, workshops, tutorials, site visits, field trips and laboratory sessions, and by engaging with guided independent study. A variety of assessment tools are used to enhance and evaluate your learning.

This is a full-time programme over one year and is split up into three trimesters. You can choose to start in either January or September. There may also be some opportunities to study abroad.

Modules

• Cell technology
• Business and bioethics
• Biotechnology for sustainable renewables
• Research skills
• Biotechnology for sustainable remediation
• Environmental sustainability management
• Independent research project

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

Environmental sustainability is an increasingly important consideration in many aspects of our lives. Biotechnology underpins many of the solutions to existing unsustainable practices and offers the possibility of new products and as such is predicted to be a key driver in the future global economy.

This course provides a wide range of career opportunities in areas such as sustainable waste management, bioremediation, environmental protection and monitoring, biorenewables, and bioprocessing, as well as product/technology development. You'll be prepared for a variety of roles including those with a research focus and those with an emphasis on leadership in both multinational companies and smaller biotechnology enterprises.

Opportunities may also exist in contract research companies and service providers to the environmental and industrial biotechnology sectors, in addition to government and environment protection agencies.

Successful completion of the MSc programme also provides a sound platform for further study in a research setting; graduates will be qualified to continue to PhD studies in the biosciences.

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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Have you ever wondered how the latest life science discoveries - such as a novel stem cell therapy - can move from the lab into commercial scale production?… Read more

Have you ever wondered how the latest life science discoveries - such as a novel stem cell therapy - can move from the lab into commercial scale production? Would you like to know whether it is possible to produce bio-polymers (plastics) and biofuels from municipal or agricultural waste? If you are thinking of a career in the pharma or biotech industries, the Biochemical Engineering MSc could be the right programme for you.

Degree information

Our MSc programme focuses on the core biochemical engineering principles that enable the translation of advances in the life sciences into real processes or products. Students will develop advanced engineering skills (such as bioprocess design, bioreactor engineering, downstream processing), state-of-the-art life science techniques (such as molecular biology, vaccine development, microfluidics) and essential business and regulatory knowledge (such as management, quality control, commercialisation).

Three distinct pathways are offered tailored for graduate scientists, engineers, or biochemical engineers. Students undertake modules to the value of 180 credits. The programme offers three different pathways (for graduate scientists, engineers, or biochemical engineers) and consists of core taught modules (120 credits) and a research or design project (60 credits).

Core modules for graduate scientists

-Advanced Bioreactor Engineering

-Bioprocess Synthesis and Process Mapping

-Bioprocess Validation and Quality Control

-Commercialisation of Bioprocess Research

-Fluid Flow and Mixing in Bioprocesses

-Heat and Mass Transfers in Bioprocesses

-Integrated Downstream Processing

-Mammalian Cell Culture and Stem Cell Processing

Core modules for graduate engineers

-Advanced Bioreactor Engineering

-Bioprocess Validation and Quality Control**

-Cellular Functioning from Genome to Proteome

-Commercialisation of Bioprocess Research

-Integrated Downstream Processing

-Mammalian Cell Culture and Stem Cell Processing

-Metabolic Processes and Regulation

-Structural Biology and Functional Protein Engineering

-Bioprocess Microfluidics*

-Bioprocess Systems Engineering*

-Bioprocessing and Clinical Translation*

-Cell Therapy Biology*

-Industrial Synthetic Biology*

-Sustainable Bioprocesses and Biorefineries*

-Vaccine Bioprocess Development*

*Core module for graduate biochemical engineers; **core module for both graduate engineers and graduate biochemical engineers

Research project/design project

All MSc students submit a 10,000-word dissertation in either Bioprocess Design (graduate scientists) or Bioprocess Research (graduate engineers and graduate biochemical engineers).

Teaching and learning

The programme is delivered through a combination of lectures, tutorials, and individual and group activities. Guest lectures delivered by industrialists provide a professional and social context. Assessment is through unseen written examinations, coursework, individual and group project reports, individual and group oral presentations, and the research or design project.

Careers

The rapid advancements in biology and the life sciences create a need for highly trained, multidisciplinary graduates possessing technical skills and fundamental understanding of both the biological and engineering aspects relevant to modern industrial bioprocesses. Consequently, UCL biochemical engineers are in high demand, due to their breadth of expertise, numerical ability and problem-solving skills. The first destinations of those who graduate from the Master's programme in biochemical engineering reflect the highly relevant nature of the training delivered.

Approximately three-quarters of our graduates elect either to take up employment in the relevant biotechnology industries or study for a PhD or an EngD, while the remainder follow careers in the management, financial or engineering design sectors.

Top career destinations for this degree:

-PhD Degree/Further Studies(Imperial College London, UCL, Cambridge)

-Consultancy (PwC)

-Bioprocess/Biopharma Industry (GSK, Eli Lilley, Synthace)

-Financial Sector

Employability

The department places great emphasis on its ability to assist its graduates in taking up exciting careers in the sector. UCL alumni, together with the department’s links with industrial groups, provide an excellent source of leads for graduates. Over 1,000 students have graduated from UCL with graduate qualifications in biochemical engineering at Master’s or doctoral levels. Many have gone on to distinguished and senior positions in the international bioindustry. Others have followed independent academic careers in universities around the world.

Why study this degree at UCL?

UCL was a founding laboratory of the discipline of biochemical engineering, established the first UK department and is the largest international centre for bioprocess teaching and research. Our internationally recognised MSc programme maintains close links with the research activities of the Advanced Centre for Biochemical Engineering which ensure that lecture and case study examples are built around the latest biological discoveries and bioprocessing technologies.

UCL Biochemical Engineering co-ordinates bioprocess research and training collaborations with more than a dozen UCL departments, a similar number of national and international university partners and over 40 international companies. MSc students directly benefit from our close ties with industry through their participation in the Department’s MBI® Training Programme.

The MBI® Training Programme is the largest leading international provider of innovative UCL-accredited short courses in bioprocessing designed primarily for industrialists. Courses are designed and delivered in collaboration with 70 industrial experts to support continued professional and technical development within the industry. Our MSc students have the unique opportunity to sit alongside industrial delegates, to gain deeper insights into the industrial application of taught material and to build a network of contacts to support their future careers.

Visit the Biochemical Engineering Open Days page on the University College London website for more details on opportunities to come and see our facilities and speak to the team!



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The MSc in Biotherapeutics and Business educates students on the practical uses of molecular advances in the discovery of proteins and other biomolecular drug candidates and their development into biotherapeutics. Read more
The MSc in Biotherapeutics and Business educates students on the practical uses of molecular advances in the discovery of proteins and other biomolecular drug candidates and their development into biotherapeutics. It will provide students with a comprehensive understanding of the development of biotherapeutics, beginning with pre-clinical modelling and target identification together with antibody engineering, biochemical and biophysical characterisation, and development issues for bioprocessing.
Systems biology of biotechnological processes and approaches to the analysis of proteomicsbased discovery data will be covered in detail, together with mathematical modelling, bioinformatics analysis and data integration strategies. Regulatory issues, and innovation and commercialisation strategies, will also be covered. Mammalian cell culture and bioprocess laboratory structure will be comprehensively covered in addition to novel approaches to therapeutic development. You will also receive a comprehensive business education. You will learn to identify and solve business problems in local and international settings, enhance your communication and leadership skills, and improve your ability for independent thinking and developing creative solutions.

Key Fact

The programme is the result of a close collaboration between the UCD School of Biomolecular and Biomedical Science and the UCD
Michael Smurfit Graduate School of Business, which is Ireland’s leading business school.

Course Content and Structure

90 credits 60 credits 30 credits
taught masters taught modules project modules
The structure of the programme is as follows:
Semester 1
• Professional Career Development
• Management & Org. Behaviour
• Corporate Accounting & Finance
• Business of Biotechnology & Science
• Biotherapeutic Pipeline I
• Recombinant DNA Technology
• Biomedical Diagnostics
• High Content Screening Microscopy
• Pharmacology & Drug Development
Semester 2
• Professional Career Development
• Biotherapeutic Pipeline II
• Systems Biology in Drug Development
• Bioprocessing Laboratory
• Emerging Issues in Biotechnology
• Regulatory Affairs
• Microbial & Animal Cell Products
Semester 3
• Valuation and Commercialisation of Biotherapeutics
• Biotherapeutics Case Study
Modules and topics shown are subject to change and are not guaranteed by UCD.

Career Opportunities

This advanced graduate degree in Biotherapeutics and Business has been developed in consultation with employers and therefore will be recognised and valued by them. A key feature is the opportunity to carry out a business development plan, which will allow graduates to develop connections with prospective employers, thereby enhancing chances of employment on graduation.
Prospective employers include: Abbott; Allergan; Amgen; Baxter Healthcare;
Eli Lilly and Co.; Dignity Sciences; GlaxoSmithKline; Icon Clinical Research;
ImmunoGen Inc.; Janssen Pharmaceutical Ltd.; Johnson & Johnson Ltd.; Merck
Sharp & Dohme; Quintiles; Quest International; Sandoz; Seroba Kernel.

Facilities and Resources

Students on this programme will benefi t from the use of a research skills laboratory in the prestigious UCD Conway Institute, as well as state-of-the-art teaching and laboratory facilities in the new O’Brien Centre for Science.

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The MSc in Biotherapeutics educates students on the practical uses of molecular advances in the discovery of protein and other biomolecular drug candidates and their development into biotherapeutics. Read more

Programme Description

The MSc in Biotherapeutics educates students on the practical uses of molecular advances in the discovery of protein and other biomolecular drug candidates and their development into biotherapeutics. It will provide students with a comprehensive understanding of the development of biotherapeutics, beginning with pre-clinical modelling and target identification together with antibody engineering, biochemical and biophysical characterisation, and development issues for bioprocessing. Systems biology of biotechnological processes and approaches to the analysis of proteomics-based discovery data will be covered in detail together with mathematical modelling, bioinformatics analysis and data integration strategies. Regulatory issues, and innovation and commercialisation strategies, will also be covered. Mammalian cell culture and bioprocess laboratory structure will be comprehensively covered in addition to novel approaches to therapeutic development. A practical drug discovery laboratory project will form a significant component of the experience of how candidates are identified and brought through the development pipeline.

Key Fact

This programme is the culmination of close collaboration between the UCD School of Biomolecular and Biomedical Science, Systems Biology Ireland and the Biopharmaceutical Industry in Ireland and across the world.

Course Content and Structure

The structure of the programme is as follows:

Semester 1
• Biotherapeutic Discovery and Development I
• Professional Career Development
• Recombinant DNA Technology
• Business of Biotechnology & Science
• Biomedical Diagnostics
• High Content Screening Microscopy
• Pharmacology & Drug Development

Semesters 2 & 3
• Biotherapeutic Discovery and Development II
• Systems Biology in Drug Development
• Professional Career Development
• Bioprocessing Laboratory
• Emerging Issues in Biotechnology
• Regulatory Affairs
• Microbial & Animal Cell Products
• Project – Biotherapeutic Development

Career Opportunities

This advanced graduate degree in Biotherapeutics has been developed in consultation with the Biopharmaceutical industry and is recognised and valued by them. A key feature is the undertaking of a significant drug discovery and development laboratory project which is reviewed by industry partners. This engagement is designed to help graduates identify opportunities in the industry at the earliest stage. Prospective employers include: Novartis, Glaxo SmithKline, Eli Lilly, Johnson & Johnson, Pfizer, Janssen Biologics, AstraZeneca, MSD, Bristol Myers Squibb, Abbott, Sanofi.

Facilities and Resources

Students on this programme will benefit from the use of a research skills laboratory in the prestigious UCD Conway Institute, as well as state-of-the-art teaching and laboratory facilities
in the new O'Brien Centre for Science.

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Biochemical Engineering concerns the use of biological organisms or processes by manufacturing industries. Read more
Biochemical Engineering concerns the use of biological organisms or processes by manufacturing industries. It is a multidisciplinary subject, requiring the integration of engineering and bioscience knowledge to design and implement processes used to manufacture a wide range of products; from novel therapeutics such as monoclonal antibodies for treating cancer, vaccines and hormones, to new environmentally-friendly biofuels. It is also essential in many other fields, such as the safe manufacture of food and drink and the removal of toxic compounds from the environment..

This course will provide you with the skills you need to start an exciting career in the bioprocess industries, or continue research in the area of bioprocessing or industrial biotechnology.

Industry involvement

As this is a highly industrially-led subject area, we have secured guest lectures from Cobra Biologics (contract manufacturing), Biocats Ltd (Enzyme manufacture) and the Centre for Process Innovation Ltd (biological process development) and are currently seeking additional industrial lectures.

Academics working at Birmingham have strong links with industry, through collaborative projects, so allow students to make contact with companies. Graduates from the MSc programme have gone on to careers in biochemical engineering world-wide, in large and small companies working in diverse areas.

There are also guest lectures from academics working at other institutions.

Practical experience

You will gain practical experience of working with industrially applicable systems, from fermentation at laboratory scale to 100 litre pilot scale, in the Biochemical Engineering laboratories. Theory learned in lectures will be applied in practical terms. In addition, theoretical aspects will be applied in design case studies in a number of modules, including the Design Project.

All MSc students complete a summer research project, working on a piece of individual, novel research within one of the research groups in the school. These projects provide an ideal experience of life as a researcher, from design of experimental work, practical generation of data, analysis and communication of findings. Many students find this experience very useful in choosing the next steps in their career.

Special Features

The lecture courses are supplemented with tutorials, seminars and experimental work. Industrial visits and talks by speakers from industrial and service organisations are also included in the course programme.

Pilot Plant

The Biochemical Engineering building houses a pilot plant with large-scale fermentation and downstream processing equipment. The newly-refurbished facility includes state-of-the-art computer-controlled bioreactors, downstream processing equipment and analytical instruments.

Course structure

The MSc is a 12-month full-time advanced course, comprising lectures, laboratory work, short experimental projects and a research project. You will take an introductory module, four core modules, and then choose 50 credits of optional themed modules. The course can also be taken on a part-time basis. The Postgraduate Diploma (PGDip) lasts for 8 months from the end of September until June.

For the first eight months you have lectures, tutorials and laboratory work. Core module topics include:

Fermentation and cell culture
Bioseparations
Process monitoring and control
Systems and synthetic biology approaches
Optional module include:

Biopharmaceutical development and manufacture
Food processing
Business skills for the process industries
The programme is strongly design-orientatedand you complete a full process plant design exercise. You also have practical experience of working in the newly-refurbished pilot plant of the Biochemical Engineering building.

From June to September you gain research training on your own project attached to one of the teams working in the bioprocessing research section.

About the School of Chemical Engineering

Birmingham has one of the largest concentrations of Chemical Engineering expertise in the UK, with an excellent reputation in learning, teaching and research.
Investment totalling over £3.5 million in our buildings has resulted in some of the best teaching, computing and laboratory facilities anywhere in the UK.
We have achieved an excellent performance in the Research Excellence Framework (REF) – the system for assessing the quality of research in UK higher education institutions. 87% of the research in the School was rated as world-leading or internationally excellent. It was ranked joint fourth overall in the UK for its research prowess and first nationally for research impact.
The enthusiasm that the academic staff have for their research comes through in their teaching and ensures that they and you are at the cutting edge of chemical engineering.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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Biotechnology encompasses all aspects of the industrial application of living organisms and/ or biological techniques. It is a collection of technologies that capitalise on the attributes of cells and biological molecules, such as DNA, to work for us. Read more
Biotechnology encompasses all aspects of the industrial application of living organisms and/ or biological techniques. It is a collection of technologies that capitalise on the attributes of cells and biological molecules, such as DNA, to work for us. Ireland has experienced massive growth across the Biotechnology sector including Food, Environmental and Pharmaceutical industries in the last decade. Ireland is home to nine of the top 10 world pharmaceutical and biotechnology companies, such as GlaxoSmithKline, Pfizer, Merck, Bristol-Myers Squibb and Genzyme, with seven of the 10 world blockbuster pharmaceuticals made here.
The MSc in Biotechnology and Business is an exciting programme designed for non-business graduates who want to become managers or entrepreneurs in complex business environments in technology and science-based fields. The MSc in Biotechnology and Business provides you with a solid knowledge of techniques used in modern biotechnology including hands-on experience of bioprocessing. You will also receive a comprehensive business education. You will learn to identify and solve business problems
in local and international settings, enhance your communication and leadership skills, and improve your ability for independent thinking and developing creative solutions. The programme is the result of a close collaboration between the UCD School of Biomolecular and Biomedical Science and the UCD Michael Smurfit Graduate School of Business, which is Ireland’s leading business school.

Key Fact

The programme is the result of a close collaboration between the UCD School of Biomolecular and Biomedical Science and the UCD Michael Smurfit Graduate School of Business, which is Ireland’s leading business school.

Course Content and Structure

90 credits 70 credits 20 credits
taught masters taught modules group business plan research project
You will spend 50% of your time studying biotechnology and 50% of your time studying business. You may choose optional biotechnology modules to ensure that you specialise in your area of interest.
Depending on your chosen subjects you will also gain experimental and theoretical knowledge in the following topics:
• Drug Discovery
• Medical Device Technology
• Biomedical Diagnostics
• Regulatory Affairs
• Bioprocessing
• Marketing Management
• Corporate Finance
• Entrepreneurship
• Business plan development
• Biotechnology Case Study

Career Opportunities

This advanced graduate degree in Biotechnology and Business has been developed in consultation with employers and therefore will be recognised and valued by them. A key feature is the opportunity to carry out a business development plan which will allow graduates to develop connections with prospective employers, thereby enhancing chances of employment on graduation.
Prospective employers include: Abbott; Allergan; Alpha Technologies;
Amgen; Avonmore Foods; Baxter Healthcare; Beckman Coulter; Biotrin International
Ltd.; Boston Scientifi c; Elan Corporation; Eli Lilly and Co.; Celltech; GlaxoSmithKline; Icon
Clinical Research; ImmunoGen Inc.; Janssen Pharmaceutical Ltd.; Johnson & Johnson Ltd.;
Kerry Group Plc.; Medtronic; Merck Sharp & Dohme; Olympus Diagnostica; Quintiles;
Quest International; Sandoz.; Seroba Kernel; Serology Ltd.

Facilities and Resources

The UCD School of Biomolecular and Biomedical Science is closely linked to the UCD Conway Institute of Biomolecular and Biomedical Research, which provides cutting-edge core technologies including the premier Mass Spectrometry resource in the country, NMR spectroscopy, real-time PCR, electron microscopy, light microscopy, digital pathology and fl ow cytometry.

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Membrane Technology at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Membrane Technology at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Swansea University is a world-leader in the area of membrane technologies for water treatment.

Key Features of MSc by Research in Membrane Technology

Pressure is increasing on our limited water resources. With more people requiring clean water, effective solutions need to come from reusing water in the most efficient way. The Centre for Water Advanced Technologies and Environmental Research (CWATER) is an internationally leading centre of excellence for the development of advanced technologies in water treatment.

The Centre benefits from world-leading expertise in the area of membrane technologies for water treatment.

The Centre for Water Advanced Technologies and Environmental Research (CWATER) research areas, broadly speaking, fit into one of three categories:

- Drinking water treatment: improved methods of portable water treatment, with a view to meeting tightening regulations at cheaper capital and operating costs.

- Waste-water treatment: technologies for the efficient removal of environmentally harmful materials and thus reduced emissions per output of discharge.

- Process-water treatment: methods for the treatment of process streams enabling the recycling of water and valuable chemical intermediates.

The MSc by Research in Membrane Technology has a wide range of subject choices including:

Modelling membrane processes

Membrane and process characterisation

Hazardous substances

Bioprocessing

Development of new membranes

Ozonation and Advanced Oxidation Processes (AOPs)

Pilot scale studies

Facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Links with industry

One of the major strengths of Membrane Technology at Swansea University is the close and extensive involvement with local, national and international engineering companies. The companies include:

Acordis

Astra Zeneca

Avecia

BP Chemicals

Bulmers

Dow Corning

GlaxoSmithKline

Nestle

Murco

Phillips 66

Unilever

Valero

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

World-leading research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

Highlights of the Engineering results according to the General Engineering Unit of Assessment:

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

Research Power (3*/4* Equivalent staff) ranked 10th in the UK



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The Industrial Biotechnology Innovation Centre (IBioIC) has launched this unique Masters in Industrial Biotechnology. IBioIC has committed to creating the next generation of skilled industrial biotechnologists. Read more

Why this course?

The Industrial Biotechnology Innovation Centre (IBioIC) has launched this unique Masters in Industrial Biotechnology. IBioIC has committed to creating the next generation of skilled industrial biotechnologists.

The course meets industrial needs and is at the forefront of developments in science and engineering. It combines the expertise of staff from 13 academic institutions across Scotland. Our industrial partners also provide input to the course.

This is an exciting opportunity for science and engineering graduates who are looking for a career in an emerging industry that is sustainable, green and essential to the global economy.

The course will provide you with a strong foundation in basic industrial biotechnology. You’ll also cover advanced state-of-the-art topics in a wide range of industrial biotechnology-related areas. A three-month placement is offered, giving students the opportunity to gain valuable experience working with one of IBioIC’s industrial partners.

See the website

You’ll study

The taught classes are designed to give you a thorough understanding of the current developments in industrial biotechnology.
Two semesters of formal teaching are followed by an intensive research project. You'll carry this out with an industrial partner.
The taught classes cover the following areas and are taught by the following partners:

Core classes include:
- Industrial Biotechnology, Governance and Importance to the Bioeconomy (The Innogen Institute, Edinburgh University)
- Bioprocessing (Strathclyde University)
- Synthetic Biology (Glasgow University)
- Practical Systems Biology (Edinburgh University)
- Downstream Processing (Heriot Watt University)
- Applied Biocatalysis (Strathclyde University)

Elective classes include:
- Blue Biotechnology (SAMS, University of Highlands & Islands)
- Renewable Energy Technologies (Abertay University)
- Advanced Project Management (Strathclyde University)
- Supply Chain Management (Strathclyde University)
- Production Management (Heriot Watt University)
- Resource Efficient Formulation (University of the West of Scotland)

Facilities

The Strathclyde Institute of Pharmacy & Biomedical Sciences (SIPBS) offers an excellent environment for research and teaching. It is located in a new building with several laboratories. All are fitted with modern equipment.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333+44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

Two semesters of formal teaching are followed by an intensive research project, carried out with an industrial partner.

Assessment

The final assessment will be based on performance in exams, coursework and the research project. If necessary there may be a formal oral exam.

Careers

The course provides an exciting opportunity for science and engineering graduates who are looking for a career in an emerging industry that is sustainable, green and essential to the global economy.

Our students enjoyed successful placements with the following companies:
- Qnostics
- GSK
- Xanthella
- SeaBioTech
- Marine Biopolymers
- AMT
- Ingenza
- Unilever
- Innogen
- CRODA
- CelluComp
- NCIMB

A total of 70% of our 2014 cohort have found full-time jobs or have undertaken further study as a result of the experience gained throughout their placement.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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Develop your understanding of key concepts and practices in the biotechnologies that drive new product innovation as well as the business principles underlying commercialisation of biomedical research. Read more
Develop your understanding of key concepts and practices in the biotechnologies that drive new product innovation as well as the business principles underlying commercialisation of biomedical research.

This course is designed to enhance your career in the medical or pharmaceutical biotechnology sectors in a variety of research, product and technology development and leadership roles.

Medical Biotechnology will equip you with broad theoretical knowledge and critical understanding of advanced principles in biotechnology. You'll also gain the practical skills required to underpin a career within a business or research environment.

See the website http://www.napier.ac.uk/en/Courses/MSc-Medical-Biotechnology-Postgraduate-FullTime

What you'll learn

This course provides detailed knowledge of key concepts in cell technology, bioprocessing and molecular analysis and how these approaches are applied in areas of specific relevance to medical and pharmaceutical applications such as drug design and discovery, immunology and microbial infection.

You’ll explore and critically evaluate the technologies driving discovery and modification of natural compounds for use in medicine; the relationship between progress in our understanding of disease and the development of diagnostics and treatments; as well as the application of theoretical concepts to the use of biological systems for production of drugs.

Business and entrepreneurship are also a core feature of this programme. You’ll address themes that influence the success of any biotechnology venture such as intellectual property, bioethics, sustainability and public perception through the development of a novel business concept.

There is an emphasis on developing your practical laboratory skills with various opportunities for hands-on experience in a range of current techniques and practices such as mammalian cell culture and fermentation. In your final trimester you’ll undertake an independent project within a vibrant research team, allowing you to apply and further develop your technical, research and professional skills. There may be the opportunity to conduct your research project externally in a relevant organisation or bio-industry.

You’ll also develop key skills including communication, problem solving, team work, project management, and leadership. You’ll learn through interactive lectures, workshops, tutorials, site visits and laboratory sessions, and by engaging with guided independent study. A variety of assessment tools are used to enhance and evaluate your learning.

This programme is also available as a Masters by Research: http://www.napier.ac.uk/research-and-innovation/research-degrees/courses

Modules

• Cell technology
• Business and bioethics
• Research skills
• Biotechnology and drug discovery
• Molecular pathogenesis of microbial infection
• Research project

One optional module from
• Advanced immunology
• Current practice in drug development
• Molecular pharmacology and toxicology

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

Within the life sciences, biotechnology is the most rapidly growing sector and it is predicted that the global expansion in this field will be a key driver in the world economy.

This programme provides opportunities for laboratory-based or research management and product development work in a variety of industries ranging from multi-national companies to smaller biotechnology enterprises in the medical, pharmaceutical, nutraceutical and biochemical sectors.

Opportunities may also exist in contract research companies and service providers to the biotechnology sector, in addition to research institutes and local government.

Successful completion of the MSc programme provides a sound platform for further study in a research setting; graduates will be qualified to continue to PhD studies in the bio-molecular sciences.

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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We offer research programmes in a variety of areas including Advanced Separations Engineering, Bioprocessing Research Unit, Reaction and Catalytic Engineering and Water and Wastewater engineering. Read more
We offer research programmes in a variety of areas including Advanced Separations Engineering, Bioprocessing Research Unit, Reaction and Catalytic Engineering and Water and Wastewater engineering.

Our philosophy

The Department of Chemical Engineering is a multidisciplinary centre focusing on research into future sustainable materials and technologies. Chemical engineering research is crucial and supports development and production of new materials, fuels, drugs, consumer products, health care products, foods and beverages, electronic components, medical implants, and more.

As the number and complexity of chemical, biochemical and biological materials used in consumer products and supporting technologies increases, this research will play an increasingly vital role in the development of modern societies across the world.

Our applicants

We seek applications from outstanding individuals from anywhere in the world who are strongly committed to and potentially capable of high-quality academic research in any of the disciplinary areas covered by our Research Centres. You can apply for one of our pre-defined research projects or develop your own proposal. Our academic staff are always open to ideas that extend existing work or introduce new topics to their subject areas.

The dissemination of research findings is seen as a vital component of the research process and graduate students are encouraged to prepare papers for publication as part of their research training.

Successful applicants are welcomed very much as junior academic colleagues rather than students, and are expected to play a full and professional role in contributing to the Department’s objective of international academic excellence.

Visit the website http://www.bath.ac.uk/engineering/graduate-school/research-programmes/chemphd/index.html

Structure

The MPhil programme combines taught research training and applied research practice.

Candidates join the Department as a member of the Research Centre (http://www.bath.ac.uk/chem-eng/research/index.html) in which they initially have a broad research interest and that will have overseen their acceptance into the Department.

Candidates are expected to carry out supervised research at the leading edge of their chosen subject, which must then be written up as a substantial thesis.

International students

Please see the International students website (http://www.bath.ac.uk/study/international/) for details of entry requirements based on qualifications from your country.

In addition all non-native speakers of English are required to have passed English language tests as follows.

If you need to develop your English language skills, the University’s Academic Skills Centre (http://www.bath.ac.uk/asc/) offers a number of courses.

Only English language tests taken in the last two years are valid for entrance purposes.

About the department

This is a dynamic department, actively pursuing advanced research in many areas of chemical, biochemical and biomedical engineering, and also offering taught Masters courses. The Department is internationally recognised for its contributions to research, many of which are achieved in partnership with industry and prestigious research organisations. Our staff are highly skilled with excellent international reputations, and our facilities are amongst the best in the country.

Facilities and equipment
The Department has a full range of research facilities with pilot plants for all major areas of research. Our analytical facilities include gas chromatography, mass spectrometry, high performance liquid chromatography (HPLC), UV-VIS, FTIR and Raman, photon correlation spectroscopy (PCS), microcalorimetry, adsorption measurement systems, surface and pore structure analysis systems and particle sizing equipment. Within the University, there is access to atomic force, scanning and transmission electron microscopes.

International and industrial links
We have active links with UK universities - Bristol, Durham, Glasgow, Leeds, Imperial College, Liverpool, Oxford, Cambridge, Southampton, Edinburgh - and with European institutions including the CNRS laboratory at Toulouse and Lappeenranta University of Technology in Finland together with the Universities of Alicante, Delft, Oveido, Porto, Paris, Aachen and Wroclaw.

Research Excellence Framework 2014
We are proud of our research record: 89% of our research was graded as either world-leading or internationally excellent in the Research Excellence Framework 2014, placing us 10th in the UK for our submission to the Aeronautical, Mechanical, Chemical and Manufacturing Engineering.

Careers information
We are committed to ensuring that postgraduate students acquire a range of subject-specific and generic skills during their research training including personal effectiveness, communication skills, networking and career management. Most of our graduates take up research, consultancy or process and product development and managerial appointments in the commercial sector, or in universities or research institutes.

Other resources
Postgraduate students are encouraged to become members of professional societies and to present the results of their research at national and international scientific meetings. The Department runs a vibrant weekly research seminar programme where students are given the opportunity to present their research.

Find out how to apply here - http://www.bath.ac.uk/engineering/graduate-school/research-programmes/how-to-apply/index.html

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Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Read more
Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce.

Course details

Food and drink manufacturing companies make up 7% of all manufacturing businesses, and they buy two thirds of all the UK's agricultural produce. Food producers must address environmental concerns, social responsibility and economic viability when designing sustainable food processing techniques. Sustainable food processing is all about finding new ways of meeting present needs without compromising future viability in constantly changing economic and environmental conditions.

This is not just a corporate social responsibility issue but directly relates to efficiency, cost-saving and profitability and so the food industry must increasingly embrace sustainable food processing to succeed. The global food and agricultural biotechnology research base and product development pipeline, including genetically modified seeds, is expanding at a rapid rate as a direct response to the global food security challenge.

This innovative and topical programme is ideal for graduates new to this dynamic and exciting sector. It's also particularly suitable if you're seeking career enhancement by studying food science and biotechnology at master’s level. The programme will be of particular interest to graduates with an interest in developing knowledge and skills in subjects such as food biotechnology, food safety management and analytical techniques currently used in the food industry. It is also suitable if you already work in the industry and wish to develop your skills in these areas.

Teesside University’s School of Science & Engineering is highly praised for the links it maintains with local and national industries and businesses such as Marlow Foods (Quorn), SK Chilled Foods and Sainsbury’s. The commitment of the School to integrate with industry in the Tees Valley and beyond is reflected in the School’s record of producing employment-ready problem solvers and innovators. This postgraduate programme embeds key transferable skills through visits to industry and talks by industry speakers.

What you study

For the postgraduate diploma (PgDip) award you must successfully complete 120 credits of taught modules. For an MSc award you must successfully complete 120 credits of taught modules and a 60-credit master's research project.

This programme develops comprehensive knowledge and understanding of food science and bioprocessing in the 21st century. As such it focuses on food production and processing, biotechnology and sustainability alongside food quality and supply chain management. You also have the option to explore food product development and enterprise, food microbiology and safety, or project management in great depth depending on your interest or desired career choice.

You are encouraged to take a voluntary placement within local industry to conduct real-world research projects.

Core modules
-Food Biotechnology
-Food Chemistry Composition and Analysis
-Food Product Design and Manufacturing Process Development
-Food Safety Engineering and Management

MSc only
-Project

Modules offered may vary.

Teaching

Making the transition to postgraduate-level study can be challenging. Support with making this transition is seen as an important element of this programme.

Support is provided during the programme induction and within the module, Food Product Design and Manufacturing Processes. This support is designed to help you understand the requirements of academic study at postgraduate level, to enhance your skills in academic writing and referencing, and to help you develop the skills necessary to operate professionally, safely and ethically in planning and implementing a master’s-level research project.

By including work-based problem-solving projects and case study exercises this programme emphasises real-world working. This helps to blend theory and knowledge in the context of business, allowing you to develop the skills employers are seeking to set you on a successful career path.

A significant feature of the programme is the inclusion of blended learning to provide a rich and varied learning experience. This also provides additional flexibility if you are in employment.
On campus you have access to a dedicated food product development laboratory and a pilot-scale processing equipment facility, allowing you to gain valuable hands-on experience of food processing and product development. Fully equipped microbiological and chemical analysis laboratories enable you to undertake a series of relevant practical investigative projects, through which you explore a range of ingredients and food products.

You are assessed on subject knowledge, independent thought and skills acquisition through formative and summative assessment.

Assessment may include:
-Examinations
-Oral presentations
-Technical interviews
-Technical reports
-Laboratory reports
-Literature surveys, evaluations and summaries
-Dissertation or thesis (MSc only)

You are presented with an assessment schedule providing details of the submission deadlines for summative assessments.

Employability

Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Food and drink manufacturing companies make up 7% of all manufacturing businesses, and they buy two thirds of all the UK’s agricultural produce. The industry generates 18% of total manufacturing turnover.

To meet the demands of this dynamic sector, the food industry needs to recruit more than 49,000 new skilled professionals and managers by 2022 which is great news for the next generation of talent wanting to study toward a rewarding career in a dynamic and highly innovative sector (The National Skills Academy for Food & Drink).

Graduates can seek jobs in many areas in the food sector including:
-Food analysis
-New product development
-Quality management and food safety management
-Food production management
-Technical management.

There may be short-term placement opportunities for some students, particularly during the project phase of the course.

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Overview. The MRes courses are designed to provide students with intensive laboratory-based training in research methods, supported by in-depth understanding. Read more
Overview
The MRes courses are designed to provide students with intensive laboratory-based training in research methods, supported by in-depth understanding. The aim is to prepare graduates to make contributions, as individuals and members of a team, to research-oriented activities in the biomedical industries and related service sectors, or academia. The courses are also well-suited to students wishing to upgrade a first degree, change field, or gain valuable laboratory experience before employment or a PhD. The Strathclyde Institute of Pharmacy and Biomedical Sciences represents the largest Pharmacy research group in the UK, with 55% of its staff rated as either world-leading or internationally excellent in terms of originality, significance and rigour (data: Research Assessment Exercise 2008). The University of Strathclyde has invested £30M in a world-class, pioneering centre for biomedical and pharmaceutical sciences teaching and research, opened Aug 2010. Students will find themselves in stimulating, unique environment on account of the strongly multidisciplinary nature of the Institute. Combining fundamental and applied research across the areas of bioscience and pharmacy, SIPBS builds on its record of success in drug and vaccine discovery and development. The Institute engages with industry and the health services, ensuring that its excellent fundamental research is translated into products that are of benefit to health and society. For more information on SIPBS go to http://www.strath.ac.uk/sipbs

Course outline

An MRes degree is focussed on research and students will spend 8 months undertaking a laboratory-based project.
To support their chosen research project, students choose advanced-level taught courses in a named specialisation, from the following areas:

Taught classes delivered through lectures, workshops and practical classes in four areas:
1. Transferable skills training in data mining, interpretation and presentation; experimental planning, personal effectiveness, ethics in research
2. Commercialisation and entrepreneurship
3. MRes-specific classes relevant to subject area

Biomedical Sciences

Example research projects:
1. Antileishmanial activity of extracts and compounds from Monodora myristica
2. Imaging and modelling of cancer development
3. Endothelial progenitor cell expression and differentiation
4. Targeted radiotherapy for cancer
5. The involvement of pulmonary veins in atrial fibrillation: electrical properties
6. Reducing bacterial resistance to antibiotics
7. Development of neural stem cells with increased levels of the autophagy cell survival pathway
8. Investigating the role of Sigma 54 in Pseudomonas aeruginosa virulence
9. Transcriptional network analysis of the Escherichia coli core stress response.
10. Identification of novel anti-microbial compounds targeted at biofilm formation

Drug Delivery systems

Example research projects
1. Nanoparticulate formulations of insulin and their analysis
2. Mesoporous silicas for oral delivery of cyclosporine
3. Bioprocessing of biopharmaceuticals
4. Modified and time-delayed oral solid-dose release formulations
5. Nasal formulations of poorly soluble compounds
6. Reducing bacterial resistance to antibiotics: establishing, optimising and implementing a high throughput assay to discover natural product derived inhibitors of metallo beta-lactamase.
7. Imaging of dermal formulations using Raman microscopy techniques
8. Antileishmanial activity of extracts and compounds from Monodora myristica
9. Anti-trypanosomal active triterpenoids from some African Propolis
10. Investigation into the potential therapeutic properties of marine organisms
11. Photo-triggered adhesion of mammalian cells

Drug Discovery

Projects in the areas of :
1. Drug Delivery
2. Molecular Biology
3. Pharmacology
4. Pharmaceutical Materials and Formulation
5. Toxicology

Neuroscience

Projects in the areas of:
1. Electrophysiology
2. Stem cell biology for regenerative purposes
3. Cell biology
4. Inflammation
5. In vitro culture systems
6. Functional genetics

How to Apply
Applicants should apply through the University of Strathclyde on-line application form: http://pgr.strath.ac.uk indicating "Masters by Research", and named specialisation as appropriate. Applicants are not required to submit a detailed research proposal at this stage.

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Accredited by the the Institution of Chemical Engineers. Develop the essential skills for a career in bioindustry or for further advanced research in next-horizon biotechnologies. Read more

About the course

Accredited by the the Institution of Chemical Engineers

Develop the essential skills for a career in bioindustry or for further advanced research in next-horizon biotechnologies. You’ll learn from world-class researchers, including staff from Biomedical Science and Materials Science and Engineering. Our graduates work in biotechnology, biopharmaceutical and bioprocess organisations.

Take advantage of our expertise

Our teaching is grounded in specialist research expertise. Our reputation for innovation secures funding from industry,
UK research councils, the government and the EU. Industry partners, large and small, benefit from our groundbreaking work addressing global challenges.

You’ll have access to top facilities, including modern social spaces, purpose-built labs, the Harpur Hill Research Station for large-scale work, extensive computing facilities and a modern applied science library. There are high-quality research facilities for sustainable energy processes, safety and risk engineering, carbon capture and utilisation, and biological processes and biomanufacturing.

Studentships

Contact us for current information on available scholarships.

Course content

Four core modules including research project, a conversion module, and three optional modules.

Core modules

Biopharmaceutical Bioprocessing
Biosystems Engineering and Computational Biology
Bioanalytical Techniques
Research Project

Examples of optional modules

Any three from:

Microfluidics
Bio-energy
Synthetic Biology
Tissue Engineering Approaches to Failure in Living Systems
Bionanomaterials
Stem Cell Biology
Proteomics and Bioinformatics

Conversion modules:

Principles in Biochemical Engineering or
Principles in Biomolecular Sciences.

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