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Full Time Masters Degrees in Chemistry, Cork, Ireland

We have 5 Full Time Masters Degrees in Chemistry, Cork, Ireland

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MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. Read more
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. They are designed to provide advanced knowledge and hands-on training in modern analytical instrumental techniques. Separation science, sensors, and spectroscopic techniques are key elements alongside chemometrics, instrumentation and advanced research project completion. You will have the flexibility to specialise in a chosen field and further advancement to PhD research is available to highly motivated and talented postgraduates.

Visit the website: http://www.ucc.ie/en/ckr03/

Course Details

On completion of this course, you will be able to:

- identify, formulate, analyse and solve problems in the analysis of chemical compounds
- outline fundamental and applied aspects of chemical analysis
- design and carry out a method of pharmaceutical and chemical analysis, including instrumental analysis
- prepare written laboratory reports that provide a description of the experiment, explain the experiment and reasoning clearly, and provide an appropriate conclusion
- communicate effectively with the chemistry, environmental and pharmaceutical communities
- carry out research and method development in chemical, pharmaceutical and environmental analysis
- prepare a written research report in the form of a dissertation

Format

The courses consist of a 12 month full-time intensive programme of lectures, laboratory work on set experiments and a dissertation based on individual research and development in the selected field of modern analytical science, under the supervision of an expert staff member. Part-time students may complete the course over 24 months subject to flexible day release from industry.

Core modules

CM6012 Modern Analytical Techniques, Chemical Data Analysis and GLP (10 credits)
CM6013 Separation Science, Sensors and Process Analytical Technology (10 credits)
CM6014 Materials, Pharmaceutical and Bio-analysis (10 credits)
CM6015 Practice of Analytical Chemistry (10 credits)
CM6026 Industry Led Workshops (5 credits)
CM6027 Taught Postgraduate Transferable Skills Development (5 credits)

Elective modules

EV4002 Environmental Monitoring (10 credits)
PF6301 Biopharmaceuticals: Formulation Design, Secondary Processing and Regulatory Compliance (10 credits)

Research Project Module (30 credits)

CM6020 Research Project and Dissertation in Analytical Chemistry (30 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#analysis

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees. Students also have the opportunity to travel aboard to do their research project. This highlights the international recognition of the course and the close links established between the course and the relevant institutes.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in future careers as PhD researchers, research projects are offered across a broad range of topics.

Careers

The MSc courses aim to provide you with the necessary skill set to develop methods and solve problems as demanded by many industries today (including pharmaceutical, environmental and forensic analytical laboratories). You are also introduced to research and innovation in analytical science.

Many analytical chemists, pharmaceutical chemical analysts and environmental chemical analysts go on to pursue careers in industry, government and forensic laboratories and opportunities for further research often result.

The course sets out to bridge the gap between the current undergraduate degree knowledge and what is relevant and expected by industry. There is a strong emphasis on developing transferable skills and ensuring that the career path for the student is either industry or academically focused. A large percentage of students gain employment in industry after completion of the course, however a number of graduates also decide to progress to international PhD opportunities.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

Read less
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. Read more
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. They are designed to provide advanced knowledge and hands-on training in modern analytical instrumental techniques. Separation science, sensors, and spectroscopic techniques are key elements alongside chemometrics, instrumentation and advanced research project completion. You will have the flexibility to specialise in a chosen field and further advancement to PhD research is available to highly motivated and talented postgraduates.

Visit the website: http://www.ucc.ie/en/ckr04/

Course Details

On completion of this course, you will be able to:

- identify, formulate, analyse and solve problems in the analysis of chemical compounds
- outline fundamental and applied aspects of chemical analysis
- design and carry out a method of pharmaceutical and chemical analysis, including instrumental analysis
- prepare written laboratory reports that provide a description of the experiment, explain the experiment and reasoning clearly, and provide an appropriate conclusion
- communicate effectively with the chemistry, environmental and pharmaceutical communities
- carry out research and method development in chemical, pharmaceutical and environmental analysis
- prepare a written research report in the form of a dissertation

Format

The courses consist of a 12 month full-time intensive programme of lectures, laboratory work on set experiments and a dissertation based on individual research and development in the selected field of modern analytical science, under the supervision of an expert staff member. Part-time students may complete the course over 24 months subject to flexible day release from industry.

Core modules

CM6012 Modern Analytical Techniques, Chemical Data Analysis and GLP (10 credits)
CM6013 Separation Science, Sensors and Process Analytical Technology (10 credits)
CM6014 Materials, Pharmaceutical and Bio-analysis (10 credits)
CM6015 Practice of Analytical Chemistry (10 credits)
CM6027 Industry Led Workshops (5 credits)
CM6027 Taught Postgraduate Transferable Skills Development (5 credits)
EV4002 Environmental Monitoring (10 credits)

Research Project Module (30 credits)

CM6021 Research Project and Dissertation in Environmental Analytical Chemistry (30 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#analysis

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees. Students also have the opportunity to travel aboard to do their research project. This highlights the international recognition of the course and the close links established between the course and the relevant institutes.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in future careers as PhD researchers, research projects are offered across a broad range of topics.

Careers

The MSc courses aim to provide you with the necessary skill set to develop methods and solve problems as demanded by many industries today (including pharmaceutical, environmental and forensic analytical laboratories). You are also introduced to research and innovation in analytical science.

Many analytical chemists, pharmaceutical chemical analysts and environmental chemical analysts go on to pursue careers in industry, government and forensic laboratories and opportunities for further research often result.

The course sets out to bridge the gap between the current undergraduate degree knowledge and what is relevant and expected by industry. There is a strong emphasis on developing transferable skills and ensuring that the career path for the student is either industry or academically focused. A large percentage of students gain employment in industry after completion of the course, however a number of graduates also decide to progress to international PhD opportunities.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

Read less
This course is designed to give participants a thorough training in the theory and practice of modern analytical techniques, with special regard to solving problems such as arise in various areas of Irish industry. Read more
This course is designed to give participants a thorough training in the theory and practice of modern analytical techniques, with special regard to solving problems such as arise in various areas of Irish industry. Towards these ends the course will consist of (i) lectures, (ii) laboratory work on set experiments and (iii) a short analytical research/development project.

Visit the website: http://www.ucc.ie/en/ckp03/

Course Details

Among the topics covered in lectures are: Introduction, sampling, classical methods of analysis, instrumentation in spectroscopy, atomic and molecular spectroscopy, near infrared, nuclear magnetic resonance spectroscopy, mass spectrometry, separation methods (incl. gas-liquid and high-performance liquid chromatography, supercritical fluid extraction), ion exchangers, potentiometry, voltammetry, sensors, process analysis, thermal methods, materials analysis, statistical data handling and the use of computers in analytical chemistry.

Format

Lectures, chosen from the following topic areas, are provided in a dedicated lecture schedule and through attendance at appropriate modules.

Set experiments

Set experiments are selected from the topics listed above and will involve the whole analytical process from sampling to the assessment of results and reliability parameters.

Project

A short research/development project is completed during the summer by full-time candidates (for part-time students special arrangements will be made).

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/PGDiplomas/science/page03.html

Placement and study abroad

Opportunities exist for industrial placement both locally and through IAESTE and for exchange of staff and students with other European research laboratories through various EU-supported Socrates networks, linked to University College Cork.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

Read less
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. Read more
MSc degree courses are provided in three key areas of Analytical Chemistry, Environmental Analytical Chemistry and in Pharmaceutical Analysis. They are designed to provide advanced knowledge and hands-on training in modern analytical instrumental techniques. Separation science, sensors, and spectroscopic techniques are key elements alongside chemometrics, instrumentation and advanced research project completion. You will have the flexibility to specialise in a chosen field and further advancement to PhD research is available to highly motivated and talented postgraduates.

Visit the website: http://www.ucc.ie/en/ckr02/

Course Details

On completion of this course, you will be able to:

- identify, formulate, analyse and solve problems in the analysis of chemical compounds
- outline fundamental and applied aspects of chemical analysis
- design and carry out a method of pharmaceutical and chemical analysis, including instrumental analysis
- prepare written laboratory reports that provide a description of the experiment, explain the experiment and reasoning clearly, and provide an appropriate conclusion
- communicate effectively with the chemistry, environmental and pharmaceutical communities
- carry out research and method development in chemical, pharmaceutical and environmental analysis
- prepare a written research report in the form of a dissertation

Format

The courses consist of a 12 month full-time intensive programme of lectures, laboratory work on set experiments and a dissertation based on individual research and development in the selected field of modern analytical science, under the supervision of an expert staff member. Part-time students may complete the course over 24 months subject to flexible day release from industry.

Core modules

CM6012 Modern Analytical Techniques, Chemical Data Analysis and GLP (10 credits)
CM6013 Separation Science, Sensors and Process Analytical Technology (10 credits)
CM6014 Materials, Pharmaceutical and Bio-analysis (10 credits)
CM6015 Practice of Analytical Chemistry (10 credits)
CM6027 Industry Led Workshops (5 credits)
CM6027 Taught Postgraduate Transferable Skills Development (5 credits)
PF6301 Biopharmaceuticals: Formulation Design, Secondary Processing and Regulatory Compliance (10 credits) or

Research Project Nodule (30 credits)

CM6022 Research Project and Dissertation in Pharmaceutical Analysis (30 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#analysis

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees. Students also have the opportunity to travel aboard to do their research project. This highlights the international recognition of the course and the close links established between the course and the relevant institutes.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in future careers as PhD researchers, research projects are offered across a broad range of topics.

Careers

The MSc courses aim to provide you with the necessary skill set to develop methods and solve problems as demanded by many industries today (including pharmaceutical, environmental and forensic analytical laboratories). You are also introduced to research and innovation in analytical science.

Many analytical chemists, pharmaceutical chemical analysts and environmental chemical analysts go on to pursue careers in industry, government and forensic laboratories and opportunities for further research often result.

The course sets out to bridge the gap between the current undergraduate degree knowledge and what is relevant and expected by industry. There is a strong emphasis on developing transferable skills and ensuring that the career path for the student is either industry or academically focused. A large percentage of students gain employment in industry after completion of the course, however a number of graduates also decide to progress to international PhD opportunities.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

Read less
IT Tralee is currently seeking to recruit ahigh calibre and suitably qualified science graduate to undertake this Master by Research programme in the Department of Biological and Pharmaceutical Sciences at IT Tralee. Read more

IT Tralee is currently seeking to recruit ahigh calibre and suitably qualified science graduate to undertake this Master by Research programme in the Department of Biological and Pharmaceutical Sciences at IT Tralee. Graduates holding a relevant Level 8 Honours Degree (second class honours or higher) are invited to submit an application. The successful applicants will be awarded a stipend of €700 per month for a maximum period of 18 months and the Institute will waive full fees for this funding period. Postgraduate students are expected to complete their studies full-time at the Institute.

Biography of Principle Supervisor

Mr Quille received his Degree in Chemistry of Pharmaceutical Compounds from University College Cork in 2007. He has since completed an M.Sc in Biotechnology in the Shannon ABC laboratories at IT Tralee on a project entitled: The preparation of an alginate with a hydrophobic moiety that retains its biocompatibility and immunosuppressive properties while remaining suitable for cellular encapsulation. He has previously worked in Astellas as a Process Technician and in Shannon ABC as a Biochemical Technician. He currently holds the role of Research Scientist with Shannon ABC. Previous projects include developing a commercial focus to the use of bioassays in the assessment of different components of seaweed and the impact of seasonality. He has worked on the FP7 funded project NatuCrop where he oversaw extensive tomato growth room, glasshouse and field trials. Results of his work have been presented at a number of conferences all over Europe and in Brazil. He is currently working on a Horizon 2020 project. 

Research Project Abstract

Crop productivity relies heavily on nitrogen fertilisation which in itself requires huge amounts of energy to produce. Also excess applications of nitrogen to the land is detrimental to the environment therefore increasing plant nitrogen use efficiency (NUE) is essential in the promotion of sustainable agriculture. The use of seaweed and seaweed extracts in agriculture is well documented. The most popular and well researched type of seaweed extract commercially available is an Ascophyllum Nodosum extract (ANE). Ascophyllum is a brown seaweed that is native to the waters of Ireland as it grows best in the North Atlantic basin. Seaweed extracts have been described to enhance seed germination and establishment, improve plant growth, yield, flower set and fruit production, increase resistance to biotic and abiotic stresses, and improve postharvest shelf life. Previously a seaweed extract when combined with a fertiliser regime increased the productivity and oil content and accelerated maturation (colour and firmness) of the olive fruits from olive trees. Oil-Seed Rape (OSR; Brassica napus) is a member of the Brassicaceae family that is grown for its oil content. It requires extensive nitrogen fertilisation, however it has a poor N-harvest index meaning a lot of nitrogen is lost in the straw rather than transported to the pod. The aim or our study is to apply 4 commercially available ANE’s to winter and spring crops of OSR (different varieties) in a controlled growth room and glasshouse and finally in a field setting under different fertiliser regimes. Treatments will be assessed by comparing fresh weight, dry weight, and seed/oil yield and oil quality. Plant tissue will also be saved in order to assess other parameters such as flavonol accumulation, nitrate reductase, gene expression (NRT2) and photosynthetic parameters.

Research Context (Technical Merit & Impact)

600,000 Ha of OSR is planted in the UK and Ireland alone every year, recommended input of nitrogen is 200 kg (0.2 tonnes) per Ha meaning 120,000 tonnes of nitrogen every year. As OSR only has an N-harvest index of 0.6, representing 48,000 tonnes lost, which is a massive financial loss as well as potentially environmentally detrimental. In determining the effect of ANE’s on NUE current research focuses on the outcome, i.e. is yield increased, rather than investigate the method by which the yield has increased. This research is aimed a filling some void of knowledge here by linking phenotypic differences to biochemical and genetic data of treated plants in order to assign a potential mode of action.

Research Methodology

While ANE’s have been shown to increase nitrogen assimilation, extensive growth trials, especially in economically important crops (such as OSR) which investigate their role in affecting NUE are scarce and are only seemingly becoming popular in recent years. However considering the increased price of nitrogen, the additional interest in biostimulants (ANE’s in particular), the need to feed a growing population and coupled to the environmental damage of excess nitrogen this can be considered a ‘hot topic’. Plant (glasshouse and field setting) trials will be conducted and analysed for phenotypic data (photosynthetic measurements, yield). Materials from these plant trials must then be harvested, extracted and saved for biochemical and genetic determination. Lab-based techniques employed include protein extraction, western blotting and spectrophotometry, RT-PCR and HPLC. This 3 pronged approach from assessing phenotype to the biochemical level and finally to the gene level will provide evidence on mode of action of the ANE’s potential impact on NUE in OSR.



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