• University of Edinburgh Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
  • Northumbria University Featured Masters Courses
  • Jacobs University Bremen gGmbH Featured Masters Courses
  • University of Bristol Featured Masters Courses
  • University of Leeds Featured Masters Courses
  • Aberystwyth University Featured Masters Courses

Postgrad LIVE! Study Fair

Birmingham | Bristol | Sheffield | Liverpool | Edinburgh

University College London Featured Masters Courses
Southampton Solent University Featured Masters Courses
Cranfield University Featured Masters Courses
University of Bedfordshire Featured Masters Courses
London School of Economics and Political Science Featured Masters Courses
"forensic" AND "chemistry…×
0 miles

Masters Degrees (Forensic Chemistry)

We have 78 Masters Degrees (Forensic Chemistry)

  • "forensic" AND "chemistry" ×
  • clear all
Showing 1 to 15 of 78
Order by 
The MSc in Analytical and Forensic Chemistry is aimed at those with a strong interest in modern instrumentation and in novel methods of chemical and forensic analysis. Read more

The MSc in Analytical and Forensic Chemistry is aimed at those with a strong interest in modern instrumentation and in novel methods of chemical and forensic analysis.

A revolution in forensic, environmental and pharmaceutical science has been borne through advances in analytical science. We are now seeing a strong, worldwide demand for imaginative, skilled analysts who have knowledge and hands-on experience of modern analytical instrumentation.

Forensic science is a multidisciplinary activity that relies on chemical and analytical techniques to provide invaluable evidence from investigations of disasters, accidents and criminal activities. It may involve the detection of tiny amounts of explosives, poisons and drugs or the identification of fibres, paints, combustion residues, glass fragments, or counterfeit currency. Forensic work is also of a biological nature, with crime detection techniques such as DNA fingerprinting requiring an understanding of the underlying biochemistry.

The University’s Analytical Science Group has an international reputation for its innovative approach to analytical and forensic chemistry. We are one of the UK’s premier analytical groups, with a range of state-of-the-art facilities and instrumentation.

Study information

In Semester 1 you take three core modules. These are designed to give a broad and balanced understanding of the most important developments in modern analytical and forensic chemistry:

  • Topics in Analytical and Forensic Chemistry
  • Analytical and Forensic Laboratory with Specialist Topics
  • MSc Skills and Laboratory Techniques

In Semester 2 you use key research tools – such as online information retrieval – to learn about the background and the planning behind your chosen research project. You will also develop specialist knowledge of analytical and forensic chemistry:

  • Advanced Topics in Forensic and Analytical Chemistry
  • Advanced Topics in Molecular Medicine
  • MSc Project Literature Review

In Semester 3 you complete an advanced analytical and forensic chemistry research project culminating in a Masters-level thesis and an oral presentation of your research successes:

  • Masters Extended Research Project

Your learning will be diverse and varied. It will include interactive lectures, workshops, laboratory practicals, and computer lab sessions. You will explore the theoretical, practical and investigative aspects of analytical chemistry and forensic science, and develop invaluable professional skills, including the application of quality assurance and health safety, oral and written communication skills, problem solving, data handling and working in teams.

* All modules are subject to availability.

Future prospects

We teach a modern curriculum covering key areas of analytical chemistry of importance to industry, including process analysis, quality assurance, spectrometry and chromatography; and cutting-edge interdisciplinary research topics in areas such as lab-on-a-chip.

The knowledge and skills you will learn on this MSc will prepare you for a career in forensic science providing invaluable evidence from investigations of disasters, accidents and criminal activities.

We undertake world-class research in many scientific areas and are famous for our pioneering work on liquid crystals. Many of our Masters students choose to progress on to PhD-level study.



Read less
This programme is for graduates with a strong grounding in forensic science who wish to advance their knowledge of the field. It prepares you for a professional role in forensic science within the criminal or civil judicial system, police or forensic practice, or research. Read more
This programme is for graduates with a strong grounding in forensic science who wish to advance their knowledge of the field.

It prepares you for a professional role in forensic science within the criminal or civil judicial system, police or forensic practice, or research. You develop command, control and management skills that will enable you to present expert evidential incident reports to the highest standard at court.

You also develop your knowledge and understanding of advanced laboratory analytical methods applied to forensic investigation. This enables you to select the most appropriate analytical techniques for forensic investigation and to use a wide range of advanced analytic apparatus to evidential standards.

This programme helps you to develop an integrated and critical understanding of forensic science to prepare you to undertake a PhD in any associated discipline.

Visit the website https://www.kent.ac.uk/courses/postgraduate/5/forensic-science

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

PS601 - Fires and Explosions (15 credits)
PS637 - DNA Analysis & Interpretation (15 credits)
PS700 - Physical Science Research Planning (15 credits)
PS702 - Contemporary and Advanced Issues in Forensic Science (15 credits)
PS704 - Major Incident Management (15 credits)
PS713 - Substances of Abuse (15 credits)
PS720 - Advanced Forensic Project Laboratory (30 credits)
PS780 - MSC Research Project (60 credits)

Assessment

Assessment is by examination and coursework.

Programme aims

This programme aims to:

- develop your integrated and critically aware understanding of forensic science and to prepare you to undertake a PhD in any associated disciplines

- prepare you for a professional role in forensic science within the criminal or civil judicial system, police, or forensic practice or research

- develop your command, control, and management skills in relation to major incidents, and to prepare and present expert evidential incident reports at court to the highest standard

- develop a clear recognition of the constraints and opportunities of the environment in which professional forensic science is carried out

- develop a variety of Masters’ level intellectual and transferable skills

- equip you with the learning skills to keep abreast of developments in the continually evolving field of forensic science and forensic investigation

- enable you to realise your academic potential.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

Read less
Forensic science is a dynamic discipline that is crucial to the investigation of crime, the collection of evidence and intelligence, and in securing justice. Read more

Forensic science is a dynamic discipline that is crucial to the investigation of crime, the collection of evidence and intelligence, and in securing justice. This multidisciplinary MSc programme offers students a unique opportunity to gain forensic science skills and methods within a holistic crime science framework.

About this degree

Students will develop an understanding of the fundamental principles of crime and forensic science, together with the key conceptual and philosophical frameworks in this field. They will gain practical skills in crime scene investigation, experimental design and implementation, statistical analysis, data analysis and modelling, and will be able to evaluate the weight and applicability of forensic evidence for investigative and court purposes.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), three optional modules (45 credits) and a research dissertation (60 credits).

An exit-only Postgraduate Diploma (120 credits) is offered.

Core modules

  • Quantitative Methods
  • Designing and Doing Research
  • Understanding and Interpreting Forensic Evidence
  • Foundations of Security and Crime Science
  • Law and Expert Evidence
  • Dissertation

Optional modules

Students choose three of the following optional modules:

  • Case Assessment and Interpretation for Forensic Scientists
  • Fundamentals of Molecular Biology
  • Information Security Management
  • Forensic Anthropology
  • Forensic Osteology
  • Forensic Geoscience
  • Frontiers in Experimental Physical Chemistry
  • Judgment and Decision Making
  • Practices of Crime Scene Investigation and Expert Testimony
  • Structural Methods in Modern Chemistry
  • Introduction to Cybersecurity
  • Advanced Forensic Anthropology

Dissertation/report

All students undertake an independent research project which culminates in a dissertation of 10,000 words.

Teaching and learning

The programme is delivered through lectures, seminars, tutorials, practical exercises and statistical and computer classes. Assessment is through coursework, examination and the dissertation.

Further information on modules and degree structure is available on the department website: Crime and Forensic Science MSc

Careers

Graduates of this programme will gain the skills necessary for a career in crime investigation, forensic science provision, consultancy, policy-making, and with public sector employers such as police forces, Home Office, and Ministry of Defence. They will also have gained the research tools necessary for a PhD or further doctoral research.

Recent career destinations for this degree

  • Crime Analyst, Home Office
  • Data Analyst, Civil Service
  • Rehabilitation Adviser, Frimley Park Hospital (NHS)
  • PhD in Security Science, UCL

Employability

Graduates from this programme gain a solid understanding of the key principles of crime and forensic science, along with the ability to analyse problems and use appropriate scientific and professional skills to solve them. They can evaluate forensic evidence and their CSI training (developed and delivered with input from London-based police forces) gives them the edge over other applicants for crime scene investigation roles, if this is what they decide to do. They have the opportunity to learn specialist techniques in areas such as forensic archaeology and forensic geoscience, and are given a thorough grounding in academic research methods.

Each year we ask our graduates to tell us about their experience of the programme and their career after leaving UCL and we include some real-life graduate profiles on our website.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

This MSc will train graduates to think strategically and critically about crime and forensic science, equipping them with transferable skills suitable for a wide range of careers.

The UCL Jill Dando Institute of Security and Crime Science (JDI) brings together academics from across the physical sciences, social sciences and humanities. Our graduate students come from varied backgrounds; many are practitioners and are encouraged to share their professional experience.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



Read less
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

Read less
The Forensic Science programme will provide you with advanced knowledge of the forensic processes (particularly chemistry and biology) and analytical techniques used in crime investigation. Read more

The Forensic Science programme will provide you with advanced knowledge of the forensic processes (particularly chemistry and biology) and analytical techniques used in crime investigation. It is the longest-running accredited programme of its type in England. 

Key benefits

  • Study programme fully accredited by The Chartered Society of Forensic Sciences.
  • A well-established and highly respected forensic science programme with contributions from leading forensic scientists.
  • Strategic alliance with the Metropolitan Police Forensic Services Directorate and research partners with LGC Forensics forming the Met/LGC/KCL managed forensic service provision (2017). 
  • Links with over 25 forensic laboratories and institutions worldwide provide research placement opportunities for students’ projects.
  • Exposure to cutting-edge technology and methodology at the forefront of forensic science research and development.
  • Flexible study pathway with the opportunity to extend your project to a 28-week project to gain an extra 30 ECTS and the MRes qualification.

Description

Accredited by the Chartered Society of Forensic Sciences, our Forensic Sciences study programme is the longest-running programme of its type in England, having been first established in 1985.

You will benefit from an advanced and flexible study programme devised and delivered by internationally leading researchers, and recognised forensic providers including our accredited DNA analysis and Drug Control Centre testing laboratories. We also collaborate closely with the Metropolitan Police Forensic Services Directorate in both teaching and research.

The course is made up of two 15 credit modules and three 30 credit modules followed by a 60 or 120 credit research module. If you are studying full-time, you will complete the course in one year, from September to September. If you are studying for the MRes qualification, you will study an extended research module that carries a further 120 credits to complete the course.

Course format and assessment

Teaching

For flexibility, a significant proportion of the course will be delivered by narrated PowerPoint. Teaching time includes workshops, group discussions and problem-based learning exercises. Approximate total contact hours for the taught modules is 360-hours.

You are also expected to undertake 840 hours of team and individual study.

Typically, one credit equates to 10 hours of work.

Assessment

Current evaluation methods include examinations, MCQs, witness statements, courtroom appearance, crime scene management and assignments.

Formative assessments are carried out as teamwork with both peer and academic feedback. This is designed to help students with the subsequent summative assessments.

The study time and assessment methods detailed above are typical and give you a good indication of what to expect. However, they are subject to change.

Extra information

You will also need to have either started or completed a course of Hepatitis B vaccinations.

Career prospects

Most of our students go on to work in the forensic science sector with forensic service providers within the UK, European and International field being the major employers. Others have taken employment with the Metropolitan Police or crime scene departments of other police forces. Many of our Canadian graduates now work for the RCMP or the Toronto Centre for Forensic Sciences. Some of our students go on to do a PhD either at King's College London or other universities across the country.



Read less
The master's degree offers students the chance to specialise in the ambit of forensics. It has the following objectives. Read more
The master's degree offers students the chance to specialise in the ambit of forensics. It has the following objectives:
-To provide students with advanced multidisciplinary scientific training in the use of forensics in the fields of chemistry, physics, genetics and statistics so that they receive specialised training in a wide range of scientific disciplines involved in the scientific analysis of evidence from crime scenes or of events or circumstances that are subject to legal proceedings. On completing this training, students will have the knowledge and skills to become members of multidisciplinary teams in their future professional careers.
-To enable students to develop the skills need to interpret evidence from crime scenes using their knowledge of the chemical, physical and biological foundations of the principal techniques in forensic analysis.
-To produce professionals with the competencies needed to carry out evaluations, reports or appraisals for different public and private organisations or to apply their knowledge in laboratories that study problems related to forensic practice.

Student Profile

The master's degree is aimed at students with official university qualifications in experimental sciences, life sciences and related technologies or bachelor's degrees Biochemistry, Biology, Chemistry, Biotechnology, Physics, Geology, Medicine, Veterinary, Pharmacy, Environmental Sciences, Food Science and Technology or Engineering.

The master's degree is also aimed at forensic professionals who wish to study a certain aspect of the discipline in greater depth.

Career Opportunities

Graduates in University Master's Degree in Forensic Genetics, Physics and Chemistry are capable of working in:
-State and regional government civil service
-Scientific police units
-Customs laboratories
-Laboratories (official, private, accredited)
-Consultancy firms
-Self-employment (independent professional practice)

Read less
This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice of forensic toxicology. Read more

This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice of forensic toxicology. The major strength of this programme is that students study within an operational ISO 17025 accredited forensic toxicology environment and will be taught by practising forensic toxicologists. This programme will be of particular interest to those interested in pursuing or furthering careers in forensic toxicology as court-reporting scientists, laboratory scientists or academics. This programme also enables graduates to gain experience in research before applying to a doctoral programme.

Why this programme

  • We are the longest established forensic toxicology MSc in the UK, and the only programme in the UK delivered by practising forensic toxicologists in an operational ISO 17025 accredited environment.
  • Our staff are regularly called to court to give evidence as expert witnesses. You will have the opportunity to visit a Scottish court in session and develop skills as an expert witness through lectures and practical sessions, including a moot court exercise.
  • The Forensic Toxicology service is accredited to ISO/IEC 17025 standard with UKAS. You will have access to a variety of instruments including GC/MS, HPLC and LC/MS.
  • Students are introduced to ISO/IEC 17025 accreditation and Quality Management Systems.
  • Our course is highly rated by graduates, with a 92% overall satisfaction rating on the 2016 Postgraduate Taught Experience Survey, and delivered by qualified, award-winning lecturers, who have worked internationally, and authored textbooks and research publications in the field.
  • Students can get involved in high-quality forensic toxicology research projects that are published and presented as posters at conferences.
  • We support our students who wish to join professional membership organisations such as the United Kingdom & Ireland Association of Forensic Toxicologists (UKIAFT).

Programme structure

Courses

  • Principles of Forensic Toxicology
  • Laboratory Techniques in Forensic Toxicology
  • Advanced Instrumentation
  • Case Review and Interpretation
  • Research and Laboratory Management
  • Project

Career prospects

This programme will prepare you for a post in a forensic toxicology laboratory both in the UK and overseas. Many of our graduates find or return to forensic work or undertake a PhD. 



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/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
The PgDip/MSc Forensic Science concentrates on practices, procedures and analytical techniques used within forensic science, and how they are applied in support of the investigation of crime and the criminal justice system as a whole. Read more

The PgDip/MSc Forensic Science concentrates on practices, procedures and analytical techniques used within forensic science, and how they are applied in support of the investigation of crime and the criminal justice system as a whole.

Course details

This course is accredited by The Chartered Society of Forensic Sciences.On completing this course you will be able to demonstrate an in-depth knowledge of forensic science and how scientific methods are applied to the investigation of crime. You benefit from our links with practitioners and other professional organisations relevant to the field of forensic science. Key members of staff are former forensic scientists or crime scene scientists with considerable operational experience.Expect to carry out analytical and practical work in the University’s on-campus forensic facilities including specialist analytical laboratories, crime scene house laboratory and forensic chemistry and biology laboratories. Watch a short video and hear what Matthew Grima, a former student, says about this course.

Professional accreditation

This course has been accredited and commended by the Chartered Society of Forensic Sciences - the international professional body for forensic science.

What you study

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

Course structure

PgDip and MSc core modules

  • Advanced Analytical Techniques
  • Forensic Biology
  • Forensic Chemistry
  • Forensic Investigative Strategy
  • Legal Issues and Evidence Reporting
  • Research Methods and Proposal

MSc only

  • Research Project

Modules offered may vary.

Teaching

How you learn

The course provides a number of contact teaching and assessment hours (through lectures, tutorials, projects, assignments and laboratory work). 

You are also expected to spend time on your own (this is called self-study time), to review lecture notes, prepare course work assignments, work on projects and revise for assessments. 

As an example, each 20-credit module typically has around 200 hours of learning time. 

Industrial experience 

On this programme you complete a project related to professional practice. This, along with the involvement of practitioners and academics in the delivery of these courses, ensures that they are relevant to the requirements of the criminal justice system.

How you are assessed

Modules are assessed by in-course assignments, including a courtroom-based expert witness assessment and end exams.

Career opportunities

Employment opportunities exist in the field of forensic science and forensic investigation with forensic science providers and law enforcement agencies. Other roles include scientific investigation where the application of science in a legal or regulatory context is important. 

This MSc programme has been accredited and commended by the Chartered Society of Forensic Sciences, the international professional body for forensic science.

See the career path of one of our graduates



Read less
MSc Forensic Science is designed for both graduate students and forensic practitioners. It will develop theoretical knowledge and practical application of the key aspects of forensic science. Read more
MSc Forensic Science is designed for both graduate students and forensic practitioners. It will develop theoretical knowledge and practical application of the key aspects of forensic science. On this course you will initially cover the fundamentals of forensic biology and forensic chemistry that underpin much of the laboratory analysis associated with forensic investigations. Following on from this, the recovery and processing of a variety of evidence types found at crime scenes will be studied in detail as will the evaluation and presentation of that evidence in a legal context. You will have access to extensive modern facilities with state-of-art facilities, including our crime scene houses, forensic, chemistry and biology laboratories. After completing six taught modules students will undertake a three module research project which will develop research skills – a diverse range of projects are available, both within the University and through external placements.

LEARNING ENVIRONMENT AND ASSESSMENT

UCLan’s School of Forensic and Applied Sciences is the first specialist School of its kind in Europe, benefiting from purpose-built facilities and £29 million of investment. Our facilities have recently been enhanced by the opening of our new £12.5-million J B Firth building to support our capability in chemistry and fire safety and engineering. In addition, our state-of-the-art resources include three crime scene houses, a vehicle examination area, a blood spatter pattern analysis suite, dedicated laboratories for the search and recovery of evidential materials, forensic anthropology, forensic biology and genetics and forensic entomology, together with a moot court room.

This course is assessed through preparation of case notes, essays, reports, practical reports, group and individual presentations and written and practical exams.

OPPORTUNITIES

Placements are possible with forensic providers, both in the UK and overseas on an ad-hoc basis. Placements are also possible in other relevant institutions, such and biology or chemistry laboratories.

Our courses are taught by internationally-acclaimed academics and former senior practitioners.

Will Goodwin, Sibte Hadi, Matt Baker, Judith Smith, Isobel Colclough, Allan Scott, Charlie Ellis, Geoff Keeling, Kev Pritchard

[[LEARNING OUTCOMES[[
-To provide an in-depth study of Forensic Science
-To develop the critical and analytical skills involving the principles, practices and techniques of Forensic Science
-To develop competence in research methods and presentation of information
-To develop skills in solving problems both independently and as a team member to a level commensurate to the master’s level

FURTHER INFORMATION

On this course you will initially cover the fundamentals of Forensic Biology and Forensic Chemistry that underpin much of the laboratory analysis associated with forensic investigations. Following on from this, the recovery and processing of a variety of evidence types found at crime scenes will be studied in detail as will the evaluation and presentation of that evidence in a legal context. The final 16 weeks of the course will involve undertaking a research project.

Read less
The MSc Forensic Science (with Advanced Practice) postgraduate course concentrates on practices, procedures and analytical techniques used within forensic science. Read more

The MSc Forensic Science (with Advanced Practice) postgraduate course concentrates on practices, procedures and analytical techniques used within forensic science. It considers how these are applied to support the investigation of crime and the criminal justice system as a whole.

Course details

On completing this course you will be able to demonstrate an in-depth knowledge of forensic science and how scientific methods are applied to the investigation of crime. You benefit from our links with practitioners and other professional organisations relevant to forensic science field. Key members of staff are former forensic scientists or crime scene scientists with considerable operational experience. Expect to carry out analytical and practical work in the University’s on-campus forensic facilities including specialist analytical laboratories, a crime scene house laboratory, and forensic chemistry and biology laboratories.There are three routes you can select from to gain a postgraduate Master’s award:

  • MSc Forensic Science – one year full time
  • MSc Forensic Science – two years part time
  • MSc Forensic Science (with Advanced Practice) – two years full time

The one-year programme is a great option if you want to gain a traditional MSc qualification – you can find out more here. This two-year master’s degree with advanced practice enhances your qualification by adding to the one-year master’s programme an internship, research or study abroad experience.

The MSc Forensic Science (with Advanced Practice) course offers you the chance to enhance your qualification by completing an internship, research or study abroad experience in addition to the content of the one-year MSc. This two-year programme is an opportunity to enhance your qualification by spending one semester completing a vocational internship, research internship or by studying abroad. Although we can’t guarantee an internship, we can provide you with practical support and advice on how to find and secure your own internship position.

What you study

For the MSc with advanced practice, you complete 120 credits of taught modules, a 60-credit master’s research project and 60 credits of advanced practice.

Course structure

Core modules

  • Advanced Analytical Techniques
  • Data Acquisition and Signal Processing Techniques
  • Forensic Biology
  • Forensic Chemistry
  • Forensic Investigative Strategy
  • Legal Issues and Evidence Reporting
  • Research Methods and Proposal
  • Research Project (Advanced Practice)

Advanced Practice options

  • Research Internship
  • Study Abroad
  • Vocational Internship

Modules offered may vary.

Teaching

How you learn

You learn through a variety of teaching methods including lectures, tutorials, projects and assignments. You are also expected to participate in self-directed study, to review lecture notes, prepare assignments, work on projects and revise for assessments. Each 20-credit module typically has around 200 hours of learning time. 

How you are assessed

Modules are assessed by in-course assignments – including a courtroom-based expert witness assessment – and end exams.

Employability

Career opportunities

Employment opportunities exist in the fields of forensic science and forensic investigation with forensic science providers and law enforcement agencies. Other roles include scientific investigation where it’s important to be apply forensic science in a legal or regulatory context. 

This MSc programme has been accredited and commended by the Chartered Society of Forensic Sciences, the international professional body for forensic science.

Work placement

On this programme you complete a project related to professional practice. This, along with involving practitioners and academics in delivering these courses, ensures that your learning is relevant to the requirements of the criminal justice system.



Read less
Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows. Read more
Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows.

We make every attempt to allocate you to a supervisor directly in your field of interest, consistent with available funding and staff loading. When you apply, please give specific indications of your research interest – including, where appropriate, the member(s) of staff you wish to work with – and whether you are applying for a studentship or propose to be self-funded.

Visit the website https://www.kent.ac.uk/courses/postgraduate/18/chemistry

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Research areas

- Applied Optics Group (AOG):

Optical sensors
This activity largely covers research into the fundamental properties of guided wave interferometers, and their application in fields ranging from monitoring bridge structures to diagnostic procedures in medicine.

Biomedical imaging/Optical coherence tomography (OCT)
OCT is a relatively new technique which can provide very high-resolution images of tissue, and which has a major application in imaging the human eye. We are investigating different time domain and spectral domain OCT configurations.

The Group is developing systems in collaboration with a variety of different national and international institutions to extend the OCT capabilities from systems dedicated to eye imaging to systems for endoscopy, imaging skin and tooth caries. Distinctively, the OCT systems developed at Kent can provide both transverse and longitudinal images from the tissue, along with a confocal image, useful in associating the easy to interpret en-face view with the more traditional OCT cross section views.

The Group also conducts research on coherence gated wavefront sensors and multiple path interferometry, that extend the hardware technology of OCT to imaging with reduced aberrations and to sensing applications of optical time domain reflectometry.

- Forensic Imaging Group (FIG):

The research of the forensic imaging team is primarily applied, focusing on mathematical and computational techniques and employing a wide variety of image processing and analysis methods for applications in modern forensic science. The Group has attracted approximately £850,000 of research funding in the last five years, from several academic, industrial and commercial organisations in the UK and the US. The Group also collaborates closely with the Forensic Psychology Group of the Open University.

Current active research projects include:

- the development of high-quality, fast facial composite systems based on evolutionary algorithms and statistical models of human facial appearance

- interactive, evolutionary search methods and evolutionary design

- statistically rigorous ageing of photo-quality images of the human face (for tracing and identifying missing persons)

- real and pseudo 3D models for modelling and analysis of the human face

- generating ‘mathematically fair’ virtual line-ups for suspect identification.

- Functional Materials Group (FMG):
The research in FMG is concerned with synthesis and characterisation of functional materials, as exemplified by materials with useful optical, catalytic, or electronic properties, and with an
emerging theme in biomaterials. The Group also uses computer modelling studies to augment
experimental work. The research covers the following main areas:

- Amorphous and nanostructured solids
- Soft functional material
- Theory and modelling of materials

- Centre for Astrophysics and Planetary Science (CAPS):
The group’s research focuses on observational and modelling programmes in star formation, planetary science and early solar system bodies, galactic astronomy and astrobiology. We gain data from the largest telescopes in the world and in space, such as ESO’s Very Large Telescope, the New Technology Telescope, the Spitzer Space Telescope and the Herschel Space Observatory. We also use our in-house facilities which include a two-stage light gas gun for impact studies.

Staff are involved in a wide range of international collaborative research projects. Areas of particular interest include: star formation, extragalactic astronomy, solar system science and instrumentation development.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

Read less
MSc Forensic Anthropology is designed to enable graduate students to develop skills in a variety of areas, which concern the processing, analysis and identification of human remains. Read more

MSc Forensic Anthropology is designed to enable graduate students to develop skills in a variety of areas, which concern the processing, analysis and identification of human remains. This postgraduate course provides intensive training in developmental anatomy and osteology, forensic anthropology methods and theory, forensic taphonomy in theory and practice, crime scene investigation and the law, research methods and expert witness and presentation skills. The course has a focus on both domestic forensic anthropology work (e.g. UK and US) and forensic anthropology in the context of international humanitarian work and international criminal investigation.

UCLan’s postgraduate Forensic Anthropology course is the only forensic anthropology/osteology MSc in the UK to be based within a dedicated forensics department with state-of-the-art Crime Scene Investigation practical labs as well as excellent resources in Forensic Biology and Chemistry.

LEARNING ENVIRONMENT AND ASSESSMENT

We have a dedicated MSc Forensic Anthropology laboratory and radiography facilities with the full range of teaching casts as well as an extensive collection of experimentally induced projectile, blunt and sharp force trauma. We have an archaeological skeletal collection consisting of some 120 individuals from two sites, one late Medieval and one Victorian. UCLan’s TRACES facility for decomposition and taphonomic experimentation is located nearby and many students choose to conduct MSc dissertation research projects as part of the long term research agenda into estimating time since death. Staff members teaching the course are also active in research and consultancy.

Assessment is based on a combination of coursework and examination and includes an MSc dissertation project. Students are encouraged to present their research findings at international meetings.

OPPORTUNITIES

Graduating from this course, you will be well placed to undertake further research at the doctoral level, take up jobs in forensic anthropology laboratories, or to participate in human remains excavations.



Read less
The PCCP program aims to integrate Master students within academic and industrial fields of fundamental physical chemistry. Read more

The PCCP program aims to integrate Master students within academic and industrial fields of fundamental physical chemistry. Various aspects are concerned: study of matter and its transformations, analysis and control of physical and chemical processes, light-matter interactions and spectroscopy techniques, modelling of physical and chemical processes from molecular to macroscopic scale. Applications cover scientific fields ranging from nanotechnologies, photonics, optoelectronics and organic electronics, to environmental sensors and detection systems.

The PCCP Master is supported by high-level educational and research partners, represented by the consortium of universities engaged in the program. Students follow their courses within a challenging, international environment. Annual summer schools, organized by the consortium partners, complete the students’ training by offering a focus on several topics relative to PCCP.

Program structure

The first year of the Master degree is focused on the fundamental aspects of Physical Chemistry (thermodynamics, quantum chemistry, spectroscopy and numerical tools). International aspects of the program are introduced progressively during the first year, with some courses taught in English. A remote research project is also programmed to promote collaboration between students of the partner universities within the context of international scientific project management.

The second year is dedicated to specialized topics (advanced spectroscopy and imaging, photonics, computational chemistry, environmental sciences). All courses are taught in English and international mobility is mandatory (at least during the second semester for the Master thesis work), thus strengthening the international dimension of the degree. Numerous mutualized lectures are carried out featuring high-level, local research activity. Practical aspects are emphasized to favor the future integration of the student within the working world. 

Master students following the specific UBx-USFQ double degree program spend between five and nine months in Quito (Ecuador) to complete the Master thesis. During this period, assistant professor positions at the USFQ are available for Master students of the program. 

Year 1: Courses are in French, except when international students are attending.

  • Numerical methods (6 ECTS)
  • Thermodynamics (6 ECTS)
  • Quantum mechanics (6 ECTS)
  • Inorganic materials or structural analysis (6 ECTS)
  • Theory of chemical bond (6 ECTS)
  • Solid state physics (6 ECTS)
  • Analytical chemistry (6 ECTS)
  • Spectroscopy (6 ECTS)
  • Quantum Chemistry and molecular simulation (6 ECTS)
  • Remote research project/English (6 ECTS)

Year 2: Courses are in English.

  • Photonics, lasers and imaging (6 ECTS)
  • Dielectric and magnetic properties (6 ECTS)
  • Large scale facilities or auto-assembly, polymers and surfactants, or hybrid and nano-materials (6 ECTS)
  • Computational chemistry or energy, communication and information (6 ECTS)
  • Research project/English (6 ECTS)
  • Professional project (6 ECTS)
  • Master thesis/internship in one of the universities of the consortium (24 ECTS)

Strengths of this Master program

  • High-level educational and research environment, proposed by the partner institutions.
  • Master students acquire project management skills at an international level.
  • Mobility during the second year offers access to a wide range of courses and training.
  • International mobility facilitates integration within both academic and industrial domains.
  • Supported by the International Master program of the Bordeaux “Initiative of Excellence” program.

After this Master program?

After graduation, students are fully prepared to pursue doctoral studies and a career in research. They may also work as scientists or R&D engineers within the industrial field.

Associated business sectors:

  • Chemical analysis
  • Chemistry of the atmosphere and environmental science
  • Energy and photovoltaic technologies
  • Nanotechnologies
  • Aeronautics and space
  • Chemical industries, pharmaceutical technologies
  • Fine chemicals and cosmetics
  • Forensic science and artwork restoration
  • Molecular modeling and simulation

Academic research domains:

  • Spectroscopy/analytical chemistry
  • Astrochemistry
  • Properties of materials, solid state physics, reactivity at the interfaces
  • Nanotechnology
  • Imaging, bio-detection
  • Organic electronics, optoelectronics, and photonics
  • Theoretical chemistry, molecular modeling and simulation etc.

Other possible activities:

  • Teaching, education and dissemination of scientific knowledge
  • Linking public and private actors in research, development and marketing
  • Participating in the purchase and investment of scientific equipment


Read less

Show 10 15 30 per page



Cookie Policy    X