Sport Science and Health (DC202) 6-month internship
The Sport Science and Health degree will help you develop a detailed understanding of the scientific aspects of sport and physical activity. You’ll also be shown how these are investigated and applied. The objective of the course is to produce well-informed science graduates who think critically and creatively, can apply knowledge and are prepared for employment in a variety of sectors.
In Year One, you’ll study the degree’s key science subjects, including chemistry, physics, physiology, psychology and sociology. In addition, there is a range of practical classes and sessions in sport and physical activity.
In second year, you’ll learn how the scientific subjects of Year One are applied to the study of sport, exercise and health. The topics included illustrate the wide range of material covered in this exciting course, ranging from nutrition and genetics to psychology, anatomy and sociology. Vocational aspects like fitness assessment, coaching studies and health promotion are covered in Years Two and Three. These will serve you well during your paid industrial training placement (INTRA) in third year.
In Year Four, you have a choice between focusing on the sport or health aspects of the course. There is also a major research project and two significant group projects, which will help you to combine your knowledge of the theoretical and practical areas of sport and exercise.
Physics with Data Analytics
In this groundbreaking degree, you will combine the skills and knowledge of a Physics degree with the advanced data analytics tools you need to solve real-world problems in new and exciting ways. It is particularly suitable for those who wish to pursue a career as a physicist in industry, finance, tech or other demanding corporate sectors. The BSc in Physics with Data Analytics is run by the DCU School of Physical Sciences in collaboration with partners across DCU and industry.
Biotechnology (DC181)
By studying a wide range of scientific and engineering subjects, you’ll gain the necessary skills to succeed in the emerging, technology-driven biotech industry.
At the start of the Biotechnology course, you’ll be introduced to the basic sciences, mathematics and computing. As you progress, you’ll discover more comprehensive areas of biotechnology, ranging from genetics and process engineering to immunology and gene cloning.
In third year, specialist areas are introduced. In addition, in Year Three you will have the opportunity to work in industry as part of our paid industrial training programme (INTRA).
In fourth year there is a strong emphasis on choice, with students selecting from a wide range of subjects. You’ll also undertake a significant research project in your final year.
Science courses at DCU provide an ideal opportunity to acquire hands-on experience, not only at the laboratory bench but also in meeting the challenges associated with ongoing creative research projects. Here you’ll be able to explore your true potential through practical work—much of which count towards your final mark.
Genetics and Cell Biology (DC168)
The first year of the course is taken in common with other science courses, so you will be studying biology, chemistry, physics, biostatistics and computing.
In Year Two, you’ll develop a deeper understanding of genetics, the biochemistry of the cell and microbiology. You’ll also be introduced to pharmacology and instrumentation.
In the first semester of Year Three, you’ll gain the practical skills and techniques that form the basis of cell and gene technologies. These include gene cloning and bioinformatics (the application of computing in genetic analysis). With this knowledge, you’ll be well prepared for your six-month work experience placement (INTRA).
In the final year, you’ll explore the advances arising from research in genetics and cell biology as well as medical products and the healthcare industry. A significant research project must also be completed.
Bioprocessing
Bioprocessing is at the heart of the biopharmaceutical and related industries. It involves the integrated application of biological sciences and bioprocess engineering principles to the manufacturing of pharmaceuticals, enzymes, food, and related products, on a commercial scale. This programme will develop your understanding of the fundamental biological principles and methods involved in the development of new drugs and related products.
You will also come to understand the problems posed by the demands of large-scale production, and you will develop the bioprocess and biomolecular engineering knowledge and skills to solve those problems.
As a budding bioprocessing specialist, you’ll have a unique appreciation of the integrated nature of bioprocessing and you’ll be able to combine your knowledge of biochemistry, microbiology and genetics with your expertise in bioprocess control, data analysis and process modelling and simulation.
Your strong knowledge of both biology and bioprocess engineering, and your ability to integrate these disciplines, will place you in the perfect position to work, research and innovate in the rapidly changing bioprocessing sector.
Analytical Science (DC261) 6-month internship
Interested in using scientific analysis to help make a better world? Analytical science is the science of detection and measurement. We benefit from it every day, from purity checks of medicines to industrial waste monitoring or the analysis in forensic laboratories. In a world deluged by data, analytical scientists can help make sense of things and solve problems of critical importance.
During this interdisciplinary course, you will learn both the theoretical and practical aspects of chemical, biochemical and microbiological analysis. In first year, you’ll gain essential background knowledge in chemistry, biology, mathematics and physics, and get hands-on laboratory experience. From second year on, you’ll focus on analytical science and from third year, you’ll specialise in either chemical or biological analysis.
Building real-world capabilities
In third year, you’ll do an INTRA work placement, gaining vital real-world experience. In your final year, you’ll focus on specialised methods and applications, along with a full-time project in the final semester, helping you to develop your own approach to solving complex problems.
As a graduate, you’ll be sought after in sectors such as biopharmaceuticals, public health, cosmetic laboratories, manufacturing, brewing, environmental monitoring, government and education. Typical roles could include process development, validation and quality control roles in contexts such as chemical, forensic and medicinal analysis laboratories, hospital laboratories, medicinal and analytical research and manufacturing plants. You can also choose to continue with further studies in research and development or teaching.
Chemical and Pharmaceutical Sciences (DC162) 6-month internship
Working in the laboratory plays a vital role in your learning, and because our laboratory facilities are among the most up-to-date, you’ll get the most practical experience possible.
Year One of this course is common with other DCU science courses.
In Year Two, the mainstream chemistry lectures and laboratories are developed in parallel with relevant topics in physics, mathematics, computing and biochemistry.
An integral part of third year is INTRA, which ensures you gain first-hand experience in the applications of chemistry during a period of industrial placement.
The final year of the course concentrates on your knowledge and development of more advanced topics. A major element in this final year is your individual research project, which consists of a literature survey on a particular topic, followed by laboratory-based research work in your general area of interest.
Environmental Science and Technology (DC166) 6-month internship
This is a four-year full-time degree course. The four years are broken down as follows:
Year One: learning and developing essential background knowledge of mathematics, chemistry, physics and biology that are the basis for a career in environmental science. The first field trip occurs in semester 2.
Year Two: building on the four areas of study in year one from an environmental viewpoint, as well as developing IT and computing skills. Modules include Microbiology and Genetics, Pollution and Biosphere, Water Chemistry and Environmental Analysis. Field trips in several subjects.
Year Three: Climate Change science is introduced, and the study of climate is encouraged through fieldwork and modules such as Environmental Monitoring & Data Analysis. Students continue to develop in environmental aspects of biotechnology, chemistry and physics. Modules include Atmospheric and Aquatic Science and students have the opportunity to gain experience on a paid work (INTRA) placement. This placement can be anywhere that is environmentally relevant. Practical work is conducted in laboratories and through onsite and field trip visits.
Year Four: Specialised modules include Toxicology, Meteorology, Renewable Energy, Soil and Waste Management. Additionally, students will carry out a semester-long research project, with environmentally relevant topics offered from across the entire Science and Health faculty.
Biotechnology (DC181) 6-month internship
By studying a wide range of scientific and engineering subjects, you’ll gain the necessary skills to succeed in the emerging, technology-driven biotech industry.
At the start of the Biotechnology course, you’ll be introduced to the basic sciences, mathematics and computing. As you progress, you’ll discover more comprehensive areas of biotechnology, ranging from genetics and process engineering to immunology and gene cloning.
In third year, specialist areas are introduced. In addition, in Year Three you will have the opportunity to work in industry as part of our paid industrial training programme (INTRA).
In fourth year there is a strong emphasis on choice, with students selecting from a wide range of subjects. You’ll also undertake a significant research project in your final year.
Science courses at DCU provide an ideal opportunity to acquire hands-on experience, not only at the laboratory bench but also in meeting the challenges associated with ongoing creative research projects. Here you’ll be able to explore your true potential through practical work—much of which count towards your final mark.
Genetics and Cell Biology (DC168) 6-month internship
The first year of the course is taken in common with other science courses, so you will be studying biology, chemistry, physics, biostatistics and computing.
In Year Two, you’ll develop a deeper understanding of genetics, the biochemistry of the cell and microbiology. You’ll also be introduced to pharmacology and instrumentation.
In the first semester of Year Three, you’ll gain the practical skills and techniques that form the basis of cell and gene technologies. These include gene cloning and bioinformatics (the application of computing in genetic analysis). With this knowledge, you’ll be well prepared for your six-month work experience placement (INTRA).
In the final year, you’ll explore the advances arising from research in genetics and cell biology as well as medical products and the healthcare industry. A significant research project must also be completed.
