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Masters Degrees (Analytical Chemist)

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Take advantage of one of our 100 Master’s Scholarships to study Applied Analytical Science (LCMS) at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Applied Analytical Science (LCMS) at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

World demand for mass spectrometry and chromatography has grown at an unprecedented rate, with qualified graduates in short supply and highly sought after. Swansea is the only UK institution to offer a range of schemes solely dedicated to these topics, drawing upon expertise in the Institute of Mass Spectrometry (IMS), based at a long established UK centre of excellence. The MSc in Applied Analytical Science (LCMS) includes fundamentals of MS and chromatography with key industrial topics covering ‘-omics’, pharmaceutical, environmental and forensic analysis, data handling, professional management and good laboratory practice (GLP). The unique combination of industry participation and content on the Applied Analytical Science (LCMS) programme provides a vocationally-relevant qualification with invaluable training and experience sought in the UK and worldwide.

Professional Accreditation

We are pleased to announce that the Royal Society of Chemistry (RSC) has accredited the “MSc in Applied Analytical Science (LCMS)” for satisfying the academic requirements of the award of CHARTERED CHEMIST (CChem) from 2015 and awarded to qualifying students. Accreditation of Postgraduate schemes have only recently been undertaken by the RSC and our scheme is one of the first to achieve accreditation.

Key Features

Course content for the Applied Analytical Science (LCMS) programme is designed for the needs of industry: Essential topics such as fundamentals of mass spectrometry and separation science, professional management of laboratory practice, data analysis and method development plus industrially-current applications areas.

Extensive training in a research-led Institute: To improve their analytical science skills to professional levels required for the workplace.

Highly practical course and extensive in-house equipment: MSc students can experience more in-depth and ‘hands-on’ learning than most current analytical MSc programmes. Additional sessions including experiment design, health and safety, and laboratory skills are held in preparation of the research project, to ensure students are adequately equipped for project work.

Many taught modules encourage problem solving skills, involving relevant simulated (pre-existing) scenarios: To develop analytical thinking, professional and academic skills through advanced practical and theoretical studies and the submission of a scientifically defensible dissertation.

Participation of expert industrial guest lecturers: Unique opportunities to network with potential employers and enhanced employability prospects in highly skilled and relevant areas such as pharmaceuticals, agriculture, food and nutrition, homeland security, clinical diagnostics, veterinary and forensic science, environmental analysis, plus marketing and sales, to name a few.

Assessment that encourage transferrable skills essential for employment: Including case studies, presentations, problem sheets, data processing and informatics exercises in addition to the traditional examinations and essay based assignments.

Modules

Modules on the Applied Analytical Science (LCMS) programme typically include:

• Mass spectrometry – basics and fundamentals
• Separation science and sample handling
• Data analysis and method development
• Professional management and laboratory practice
• Proteomics
• Pharmaceutical
• Environmental and forensic analysis
• Medical and life sciences
• Metabolomics, lipidomics and bioactive lipids
• Data analysis and method development
• Dissertation: MS experimental project

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This course is designed for scientists and engineers who wish to develop their skills in environmental analysis. The involvement of industry in the design of the course and a industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists and engineers who wish to develop their skills in environmental analysis.

The involvement of industry in the design of the course and a industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Science Environmental Analysis course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

See the website http://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate/environmental-analysis-ft

Stage 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Stage 2

•Environmental Analysis
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Stage 3

•MSc Research Project

Award: MSc Instrumental Analytical Science Environmental Analysis

Format

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This course is designed for scientists who wish to develop their skills in DNA Analysis, Proteomics and Metabolomics. The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists who wish to develop their skills in DNA Analysis, Proteomics and Metabolomics.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Sciences DNA Analysis, Proteomics and Metabolomics course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website https://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate-taught-full-time/dna-analysis-proteomics-and-metabolomics

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•DNA Analysis, Proteomics and Metabolomics
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Science DNA Analysis, Proteomics & Metabolomics

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditation

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This course is designed for scientists who wish to develop their skills in Drug Analysis and Toxicology. The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists who wish to develop their skills in Drug Analysis and Toxicology.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Science Drug Analysis and Toxicology course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website http://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate/ias-drug-analysis-and-toxicology-ft

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•Drug Analysis and Toxicology
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Sciences Drug Analysis and Toxicology

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This course is designed for scientists and engineers who wish to develop their skills in oilfield chemistry. 2013/14 entry free places available for Scottish/EU Students. Read more
This course is designed for scientists and engineers who wish to develop their skills in oilfield chemistry. 2013/14 entry free places available for Scottish/EU Students.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. There is extensive opportunity for practical experience throughout the course. Students on the MSc Instrumental Analytical Science Oilfield Chemicals course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website http://www.rgu.ac.uk/laboratory-biomedical-and-sports-sciences/study-options/postgraduate-taught-full-time/oilfield-chemicals

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•Oilfield Chemicals
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Science Oilfield Chemicals

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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MSc Forensic Toxicology combines aspects of analytical chemistry, biochemistry and pharmacology that are crucial to the role of the drugs chemist working within a toxicological environment. Read more
MSc Forensic Toxicology combines aspects of analytical chemistry, biochemistry and pharmacology that are crucial to the role of the drugs chemist working within a toxicological environment. While the primary focus of this course will be drugs of abuse, the underpinning science and methodologies are equally relevant to a toxicologist analytical chemist working in the pharmaceutical or other related industries.

As a Forensic Toxicologist you may be called to provide evidence in a court of law, training in this important aspect is provided through an Expert Witness module which includes a moot court presentation. In addition to acquiring a sound theoretical understanding of the subject area there is a strong emphasis on developing practical skills throughout the course.

This cumulates in a 60 credit project whereby students have the opportunity to specialise in various areas of drugs toxicology. This course will appeal to graduates from a wide range of disciplines including forensic science, chemistry, biology and other related disciplines.

PROFESSIONAL ACCREDITATION

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

LEARNING ENVIRONMENT AND ASSESSMENT

Computing Facilities are available in the general computing suites found within the building and throughout campus. Extensive Resources are available to support your studies provided by Learning & Information Services (LIS) – library and IT staff. You are advised to take advantage of the free training sessions designed to enable you to gain all the skills you need for your research and study.

LIS provide access to a huge range of electronic resources – e-journals and databases, e-books, images and texts.

Course and module materials are not provided in ‘hard copy’ format, however, wherever practicable, lecture notes and/or presentations, seminar materials, assignment briefs and materials and other relevant information and resources are made available in electronic form via eLearn. This is the brand name for the on-line Virtual Learning Environment (VLE) that the University uses to support and enhance teaching and learning.

All students can access the eLearn spaces for the course and modules that they are registered for. Once logged into your eLearn area you can access material from the course and all of the modules you are studying without having to log in to each module separately.

The modules are assessed by both coursework and examination. To ensure that you do not have an excessive amount of assessment at any one time, the coursework assessment will take place uniformly throughout the course.

OPPORTUNITIES

The course is designed to equip students with the skills, knowledge and understanding to work in forensic toxicology, toxicology and other areas of chemical analysis.

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At the graduate level, the Chemistry Department features a research-based Master of Science degree. After completion of core coursework in the major sub-disciplines, students in the Chemistry M.S. Read more
At the graduate level, the Chemistry Department features a research-based Master of Science degree. After completion of core coursework in the major sub-disciplines, students in the Chemistry M.S. program have the opportunity to participate in a wide range of research experiences, including environmental, organic synthesis, natural product isolation, computational and theoretical, analytical, nanomaterials, catalysis, polymers, biochemistry, and chemical education. The research experience is considerably enhanced by MTSU’s new 250,000-square-foot science building and upgraded instrumentation. Talented undergraduates also have the opportunity to participate in a new Accelerated Bachelor’s/Master’s (ABM) program which enables them to complete a bachelor’s and master’s degree in five years. Graduates find employment in a wide range of areas as well as continuing their education in high-quality doctoral and/or professional programs. The department also participates in three interdisciplinary Ph.D. programs (Molecular Biosciences, Computational Science, and Math and Science Education).

Career

Jobs in science, technology, engineering and mathematics are projected to grow 13 percent by 2022. Chemistry graduates with advanced degrees will particularly find better job opportunities with pharmaceutical and biotech companies. MTSU's state-of-the-art science building offers both large and small lab spaces so faculty can pursue research projects with both graduate and undergraduate students. A memorandum of understanding between the university and Oak Ridge National Laboratory also has been renewed three times. Some potential professional pursuits:

Analytical chemist
Biochemist
Biomedical engineer
Chemical engineer
Chemist
Chemistry teacher
Food scientist
Forensic scientist
Gas chromatography/mass spectrometry (GC/MS) specialist
Materials scientist
Molecular informatics specialist
Organic chemist
Patent attorney
Product development/design
Professor/educator
Research assistant/associate
Researcher
Sales/marketing – scientific equipment/pharmaceuticals

Employers of MTSU alumni include:

Abbott Pharmaceutical
Aegis
Albany Molecular Research
ALCOA
Bedford County School System
Belcher Pharmaceutical
California public school system
Commonwealth Technologies
Eli Lilly Inc.
Garratt Callahan
Google
Harcross Chemicals
Hewlett-Packard
Kyzen Corp.
Lipscomb University
L. King High School
Mead Johnson
Merck Pharmaceutical
Metro-Nashville Public Schools
Middle Tennessee State University
Nissan
Novartis Pharmaceuticals
Oak Ridge National Laboratory
Palm Corp.
Pellissippi State Community College
Purdue University
Rutherford County Schools
Schering-Plough Pharmaceuticals
Specialized Assays
Jude Children’s Research Hospital
Sylvan Learning
TBI Crime Laboratory
Tennessee Department of Health
Tennessee Dept. of Environment & Pollution Control
Tennessee Dept. of Health Lab Services
Test America
University of Cincinnati
Vanderbilt Drug Discovery Program
Vanderbilt-Ingram Cancer Center
Varian
Vi-Jon Laboratories
Williamson County Schools
Wilson County Schools

Doctoral/professional programs where alumni have been accepted include:

Arizona State University
Colorado State University
Florida State University
Loyola Stritch School of Medicine, Chicago
Michigan State University
Middle Tennessee State University
Niger Life University
Ohio State University
Rutgers University
Syracuse University
University of Alabama
University of British Columbia
University of Buffalo
University of Louisville
University of New Hampshire
University of New Mexico
University of Notre Dame
University of South Carolina
University of Tennessee-Knoxville
University of Tennessee-Memphis
University of Texas Southwestern Medical School
University of Utah
University of Vermont
University of Wyoming
Vanderbilt University
Virginia Commonwealth University
Wright State University

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MSc Forensic Toxicology combines aspects of analytical chemistry, biochemistry and pharmacology that are crucial to the role of the drugs chemist working within a toxicological environment. Read more
MSc Forensic Toxicology combines aspects of analytical chemistry, biochemistry and pharmacology that are crucial to the role of the drugs chemist working within a toxicological environment. While the primary focus of this course will be drugs of abuse, the underpinning science and methodologies are equally relevant to a toxicologist analytical chemist working in the pharmaceutical or other related industries.

As a Forensic Toxicologist you may be called to provide evidence in a court of law, training in this important aspect is provided through an Expert Witness module which includes a moot court presentation. In addition to acquiring a sound theoretical understanding of the subject area there is a strong emphasis on developing practical skills throughout the course.

This cumulates in a 60 credit project whereby students have the opportunity to specialise in various areas of drugs toxicology. This course will appeal to graduates from a wide range of disciplines including forensic science, chemistry, biology and other related disciplines.

PROFESSIONAL ACCREDITATION

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

LEARNING ENVIRONMENT AND ASSESSMENT

Computing Facilities are available in the general computing suites found within the building and throughout campus. Extensive Resources are available to support your studies provided by Learning & Information Services (LIS) – library and IT staff. You are advised to take advantage of the free training sessions designed to enable you to gain all the skills you need for your research and study.

LIS provide access to a huge range of electronic resources – e-journals and databases, e-books, images and texts.

Course and module materials are not provided in ‘hard copy’ format, however, wherever practicable, lecture notes and/or presentations, seminar materials, assignment briefs and materials and other relevant information and resources are made available in electronic form via eLearn. This is the brand name for the on-line Virtual Learning Environment (VLE) that the University uses to support and enhance teaching and learning.

All students can access the eLearn spaces for the course and modules that they are registered for. Once logged into your eLearn area you can access material from the course and all of the modules you are studying without having to log in to each module separately.

The modules are assessed by both coursework and examination. To ensure that you do not have an excessive amount of assessment at any one time, the coursework assessment will take place uniformly throughout the course.

OPPORTUNITIES

The course is designed to equip students with the skills, knowledge and understanding to work in forensic toxicology, toxicology and other areas of chemical analysis.

FURTHER INFORMATION

Semester 1 of the course is designed to ensure that you have the basic skills needed to obtain an MSc. It is important that you enhance the skills you have that will be of benefit when you gain employment after the course. The main skills that you will enhance will be presentational skills, report writing, independent working and problem solving.

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The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Read more
The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Plymouth University is the only university which requires students to work in ISO9001:2015 certified laboratories.

Practical work to the ISO 17025 standard is a requirement at level seven for obtaining the MChem Analytical Chemistry qualification. The programme focuses on producing practical professional chemists through a hands-on approach to learning.

Key features

-The programme provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels 4 to 7 (Masters Level)
-You will develop the theoretical and practical skills necessary for employment as professional chemist in a range of chemical and allied fields, including research, teaching and industry
-The programme will develop the theoretical and practical skills, and provide training necessary for employment as an analytical chemist with experience of working to ISO 17025, the international standard for all testing and calibration laboratories
-You will learn to become a practical professional chemists through a hands-on approach to learning.
-The course places the professional skills of communication, problem solving, information and data retrieval and project management at its heart.

Course details

Year 1
Core modules
-CHM1011 Practice of Chemistry
-CHM1015 Organic and Inorganic Chemistry 2
-CHM1016 Physical and Computational Chemistry 2
-CHM1012 Organic and Inorganic Chemistry 1
-CHM1013 Physical and Computational Chemistry 1

Optional modules
-CHM1014PP Solving Chemical Problems
-MATH1604PP Symmetry and Space
-SPNX100PP Spanish 1
-FREX100PP French 1
-GERX100PP German 1
-MATH1607PP The Quantum Universe

Year 2
Core modules
-CHM2013 Physical Chemistry
-CHM2011 Inorganic Chemistry
-CHM2012 Organic Chemistry
-CHM2015 Analytical Chemistry 2
-CHM2014 Analytical Chemistry 1
-APIE218 Preparation for the Chemical Industry Work Placement
-CHM2016 Research Skills

Year 3
Optional modules
-APIE318 Placement in Chemistry

Year 4
Core modules
-CHM3016 Advanced Physical Chemistry
-CHM3014 Advanced Inorganic Chemistry
-CHM3015 Advanced Organic Chemistry

Optional modules
-CHM3011 Chemistry Project
-CHM3012 Chemistry Project incorporating Work Based Learning
-CHM3013 Advanced Analytical Techniques
-CHM3017 Physical Chemistry

Final year
Core modules
-GEES514 Research Skills for Science
-CHM5001 MChem Analytical Chemistry Project
-CHM5004 Quality Assurance and Accreditation
-CHM5005 Analytical Chemistry Advanced Problems and Practice for MChem

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Our MSc Advanced Forensic Analysis course is designed to give you an advanced understanding of the main areas of forensic science and is unlike any other postgraduate course in forensic science, in that it covers in more depth all of the areas touched on in UWE Bristol's undergraduate courses. Read more
Our MSc Advanced Forensic Analysis course is designed to give you an advanced understanding of the main areas of forensic science and is unlike any other postgraduate course in forensic science, in that it covers in more depth all of the areas touched on in UWE Bristol's undergraduate courses. There are modules in all three key areas of forensic science: biology, chemistry and crime scene science and we also offer a module covering more advanced aspects of research and statistics. You can base your in-depth research project aspect of the programme at UWE Bristol's Forensic Analysis department, or on placement with one of our partner forensic providers. These include West Technology or Mass Spec Analytical, and local fire services that rely on the analytical skills you'll develop.

Key benefits

A flexible and highly vocational postgraduate programme, accredited by the Chartered Society of Forensic Sciences, for those looking to enhance skills and knowledge to support careers in forensic science.

You'll have access to the specially modified Crime Scene House, which can be adapted to mimic the conditions typically found at a variety of crime scenes.

The two-bedroom house, which also includes a bathroom, kitchen and lounge, gives you authentic experience of what you might encounter as a forensics professional following a range of incidents and scenarios for example, a burglary, murder or abduction. There is CCTV and two-way communication in all the rooms, along with a control suite to allow live feedback from observing instructors. We can record sessions for analysis and evaluation an excellent learning tool.

Course detail

The department has an excellent bio- sensors research team, which supports this study programme and offers wider perspectives on the role of a forensic scientist.

Through your studies, you will follow evidence from the crime scene, through laboratory examination and analysis, to writing a report for court and giving evidence in a courtroom situation with examination-in-chief and cross examination.

The course is available as a full-time or part-time route, allowing flexibility and access for students already in related employment. It also offers excellent preparation for doctorate-levels studies.

Modules

• Advanced Crime Scene Science
• Forensic Biology and Genetics
• Forensic Analysis and Toxicology
• Research Methods and Practical Skills
• Research Project

Format

The research project is undertaken for the MSc award. Part-time students do this over two terms of the second year in the laboratory where they work. Full-time students carry out the project supervised by specialist subject tutors at UWE Bristol, or on placement with one of our partner forensic providers.

Students who complete all taught modules successfully, but do not undertake the research project, achieve a Postgraduate Diploma.

Students who complete the Forensic Biology and Genetics module successfully, plus any one of the other modules on the course, achieve a Postgraduate Certificate.

Assessment

We assess each taught module through written examinations and coursework. Coursework may be in the form of a case study, practical report, poster or oral presentation. One assessment involves collecting evidence from a mock crime scene, examining it in the laboratory, and providing a written report as you would for a court, plus examination-in-chief and cross examination in a mock courtroom.

Careers / Further study

Our postgraduate course in Advanced Forensic Analysis is highly regarded by forensic science employers it feeds into analytical careers and into specialisms such as DNA analysis. It is also ideal preparation for PhD routes, and UWE Bristol has excellent links with institutions providing doctorate-level programmes in forensic analysis. They use our departmental facilities for aspects of their research.
Graduates have gone on to work with our local partner providers, and in roles that include DNA analyst, forensic chemist and Scene of Crime Officer (SOCO).

How to apply

Information on applications can be found at the following link: http://www1.uwe.ac.uk/study/applyingtouwebristol/postgraduateapplications.aspx

Funding

- New Postgraduate Master's loans for 2016/17 academic year –
-
The government are introducing a master’s loan scheme, whereby master’s students under 60 can access a loan of up to £10,000 as a contribution towards the cost of their study. This is part of the government’s long-term commitment to enhance support for postgraduate study.

Scholarships and other sources of funding are also available.

More information can be found here: http://www1.uwe.ac.uk/students/feesandfunding/fundingandscholarships/postgraduatefunding.aspx

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The master of science degree in chemistry is offered on a full- or part-time basis. The program is designed to fill the needs of the traditional student or the practicing chemist who is employed full time and wishes to pursue a graduate degree on a part-time basis. Read more

Program overview

The master of science degree in chemistry is offered on a full- or part-time basis. The program is designed to fill the needs of the traditional student or the practicing chemist who is employed full time and wishes to pursue a graduate degree on a part-time basis. The School of Chemistry and Materials Science has research- and teaching-oriented faculty, as well as excellent equipment and facilities that enable full-time graduate students to carry on a program of independent study and develop the ability to attack scientific problems at the fundamental level. The research can result in either a thesis or a project report.Through course work and research activities, the program strives to increase the breadth and depth of the student’s background in chemistry. Students develop the ability to attack scientific problems with minimal supervision.

Plan of study

The program offers two options: a thesis option and a project option. Concentrations are available in organic chemistry, analytical chemistry, inorganic chemistry, physical chemistry, polymer chemistry, materials science, and biochemistry. Customized concentrations are available to accommodate specific student interests and needs relating to graduate study in chemistry. Each student, together with an adviser, chooses courses to create a customized curriculum that best meets their interests, needs, and career aspirations. Each student's curriculum is subject to the approval of the director of the graduate program. A deliberate effort is made to strengthen any areas of weakness indicated by the student’s undergraduate records and the placement examinations. The MS degree consists of the following requirements:

1. A minimum of 30 semester credit hours beyond the bachelor’s degree.
Courses in chemistry consist of core and focus area courses. Core courses are designed to increase a student’s breadth of chemical knowledge, while focus area courses increase depth. Core courses include four semester credit hours in Graduate Chemistry Seminar (CHEM-771, 772, 773, 774) and one credit hour in Chemistry Writing (CHEM-670). Focus area courses are chosen to address the student’s career goals and any undergraduate deficiencies in chemistry. Focus area courses must be at the graduate level and are chosen in consultation between the student and graduate adviser. Focus area courses outside of chemistry are acceptable provided they are approved by the student’s graduate adviser.

2. Research
Ten semester credit hours of research are required with the thesis option. For students who opt for the project option, four semester hours of project research are required.

3. Capstone
Students enrolled in the thesis option are expected to complete an independent research thesis and pass an oral defense. Typically, all requirements are met within two years. Students enrolled in the project option have numerous ways of satisfying the capstone requirement for their project. These include but are not limited to conference presentations, papers, journal articles, patents, and seminars.

Curriculum

Thesis and project options for the Chemistry MS degree differ in course sequence, see website for details.

Other admission requirements

-Submit official transcripts (in English) for all previously completed undergraduate or graduate course work.
-Submit scores from the Graduate Record Exam (GRE). It is recommended that candidates also submit scores from the chemistry GRE.
-Submit two letters of reference.
-Complete a graduate application.
-International applicants whose native language is not English must submit scores from the Test of English as a Foreign Language (TOEFL). International English Language Testing System (IELTS) scores will be accepted in place of the TOEFL exam. Minimum scores will vary; however, the absolute minimum score required for unconditional acceptance is 6.5. For additional information about the IELTS, please visit http://www.ielts.org. This requirement may be waived for students submitting transcripts from American universities, or those at which the language of instruction is English. Foreign students with English language deficiencies may be required to take the Michigan Test of English Language Proficiency, given by the RIT English Language Center. If a student’s score is below standard, additional course work may be recommended. Successful completion of this work is a requirement of the program. This may mean that the student will need additional time and financial resources to complete the degree program.
-As a supplement to the normal application process, it is strongly recommended that students visit RIT.

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Discoveries in chemistry research improve lives and solve global problems, and this course - undertaken as part a collaborative multidisciplinary team - looks towards solving a diverse range of real problems, from ageing to environmental remediation. Read more

About the course

Discoveries in chemistry research improve lives and solve global problems, and this course - undertaken as part a collaborative multidisciplinary team - looks towards solving a diverse range of real problems, from ageing to environmental remediation.

The MRes qualification is designed for students looking to undertake a postgraduate qualification that incorporates a greater level of research activity than a taught MSc, either with a focus on preparing for a PhD, or on applying transferable research methodologies to industry roles.

You’ll have the chance to develop advanced knowledge of techniques such as chromatography, spectroscopy and electro-analysis, and benefit from working in specialist laboratories in our new Huxley building. Supervisor feedback will help you develop as a chemist, and the combination of both self-evaluated activities and tutor-based support will serve to enhance your employability.

This course offers a window into modern chemistry research that moves beyond studying chemistry as an isolated subject, and into creating real-world solutions alongside subject specialists from microbiology, pharmacology, cell biology, environmental sciences and beyond.

Course structure

Your time will be divided between taught modules (80 credits, including research methodology modules) and your year-long research project (100 credits) supervised by one of our chemistry staff.

Lectures, interactive workshops and practical laboratory work advance your chemistry knowledge, while specialist modules allow you to complement your interests and career options. The course is also integrated with the wider research community, including talks from visiting experts and a programme of seminars, with the result that our students often publish research project findings in leading journals and have the chance to present at international conferences.

Our chemistry research is very diverse, with particular strengths in medicinal, environmental, materials, analytical and bioanalytical chemistry. Current example project areas include:
- Artificial enzymes
- Squaraine sensors
- Synthesis, reactions and bioevaluation of putative anti-ageing compounds
- Trace metal analysis of tidal river sediments and/or water
- Water clean-up using iron-based nanomaterials
- Surface modification of tissue engineering skin substitute scaffolds to enhance their in vivo biocompatibility
- Synthesis and medicinal chemistry of novel pro-drugs

Syllabus

- Recent developments in chemistry research
- Specialist chemistry options
- Individual research project
- Research methodologies
- Work in progress seminar

Career opportunities

This course is for students who wish to enhance their knowledge in order to pursue a career in chemistry research, or to develop transferable skills for professional employment in areas as diverse as archaeology and interplanetary exploration.

Our graduates have been awarded PhD studentships at top UK universities as well as working in a wide variety of local and global companies, including GSK, Southern Water and Novartis.

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A Master’s degree in chemistry qualifies you for expert positions in a wide range of fields, such as industry, research or education. Read more
A Master’s degree in chemistry qualifies you for expert positions in a wide range of fields, such as industry, research or education. The chemicals industry is a major employer and one of the largest export industries in Finland. Your work could also involve applications of environmental or biological sciences, the manufacture of pharmaceutical products, or the development of technological materials or new energy solutions. In the private sector, your duties might include research and development, quality management, training or commerce. Customs and forensic chemists, and chemists working in environmental control, analyse samples as part of their duties. Chemical research often requires interdisciplinary and international cooperation. As a chemist, you can be a part of developing new inventions and serve as an expert in your field and as a connoisseur of natural phenomena!

After completing the Master’s Programme in Chemistry and Molecular Sciences, you will:
-Be profoundly familiar with experimental research methods in one or more fields of chemistry, such as analytical and synthetic chemistry, radiochemistry, molecular research, and spectroscopy.
-Have an in-depth knowledge of the theoretical basis of your field and be able to apply this knowledge to broader topics.
-Know how to search for and manage chemical research data and use them to plan and perform demanding duties in chemical laboratories.
-Be able to act as a chemical expert in project planning and management, both independently and as a member of a team.
-Be able to present your results accurately in accordance with the practices of the field, both orally and in writing, and prepare extensive papers and reports.

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

Programme Contents

In the Master’s programme, you will deepen the knowledge and skills acquired during your Bachelor’s degree studies. Depending on your choices, you will familiarise yourself with one or more branches of chemistry and learn modern research methodology. The studies include lecture courses, examinations and contact teaching, laboratory courses, presentation series and seminars. Compared to the Bachelor’s degree, these studies require more independent work. The Master’s degree culminates in an extensive Master’s thesis that includes practical research. You can find further details about the studies in the course catalogue (in Finnish) and on WebOodi - http://www.helsinki.fi/ml/opinto-opas/index.html

Students are automatically granted admission to the Master’s programme through the Bachelor’s Programme in Chemistry at the University of Helsinki. You can also apply for the programme after completing an applicable Bachelor’s degree in a different programme or university.

Selection of the Major

In the Master’s programme, you may select study modules from different special fields of chemistry according to your interests and career goals. You can either complete a broad-ranging degree by selecting studies from several modules or specialise in a specific branch of chemistry. In connection with the Master’s programme operates also the international programme Advanced Spectroscopy in Chemistry, where you have the possibility to apply. You will receive assistance in preparing your personal study plan from your student advisor.

Career Prospects

Chemistry is needed in many sectors. Similarly, Master’s studies in chemistry allow you to specialise in many kinds of tasks. In your Master’s degree studies, you will familiarise yourself thoroughly with at least one branch of chemistry, after which you will be qualified to work in demanding expert positions. As a Master’s graduate, you can apply for postgraduate study in a doctoral programme. Approximately one quarter of chemistry graduates continue to complete a doctorate.

As a chemical expert you can embark on a career in industry, research or education, or in the business sector. Your work might also involve applications of environmental or biological sciences, the manufacture of pharmaceutical products, or the development of technological materials or new energy solutions. Potential employers include private companies, research and educational institutes, public agencies and supervisory authorities. A traineeship completed during your studies could help you to choose your career. Chemistry is an international field, so there are also plenty of career opportunities abroad and in international organisations.

Internationalization

An international learning environment: The Master’s Programme in Chemistry and Molecular Sciences accepts students through an international admissions procedure. Lectures are in English. Students of the international Master’s Programme in Advanced Spectroscopy in Chemistry, as well as several exchange students further increase the international scope. In addition, the Department includes several international teachers and researchers. Chemical research is an international effort, and research groups at the University of Helsinki have several international partners.

Student exchange: The University of Helsinki has student exchange agreements with several foreign universities, so you can complete part of your degree abroad. Once you have completed your Master’s degree, you can pursue doctoral studies at a foreign university. The Master’s degree in chemistry completed at the University of Helsinki has been certified with the Euromaster® quality label, which guarantees the recognition of the degree at European universities.

Language studies: The University of Helsinki offers a wide range of opportunities for improving your language skills.

Research Focus

Chemical research is multifaceted and extensively covers the methodology of different branches of chemistry. Operations have been divided into three research programmes: Molecular Sciences, Materials Chemistry, and Synthesis and Analysis. In addition, the Finnish Institute for Verification of the Chemical Weapons Convention (VERIFIN) operates at the Department. The Unit of Chemistry Teacher Education actively researches the teaching of chemistry and the development of teaching methods.

Chemical research methods range from laboratory work to demanding equipment technologies, computational research and modelling. Research projects are often multidisciplinary. Researchers at the Department of Chemistry have joint projects with University units in the fields of, for example, physics, biological sciences, pharmacy and medicine. Other key partners include Aalto University, VTT Technical Research Centre of Finland and many universities, research institutes and companies in Finland and abroad.

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