With a degree in Materials Science and Engineering you will find global opportunities in both established and newly developing industries. Graduates go on to pursue careers in academia and as policy makers and scientifi cadvisors to national governments, or in entrepreneurial roles.
There will always be a need for materials scientists and engineers in traditional industries such as automotive, aerospace manufacturing, chemical engineering or the nuclear industry. There are also many roles for materials scientists as product developers, process scientists and technical sales engineers.
Materials scientists provide essential expertise to achieve lighter, faster, safer and more economic aircrafts, satellites or spacecraft . They understand the relationship between performance and the extreme environments materials will encounter in
aerospace applications. They work on technologies from high performance alloys, or composites to coatings.
Racing cars, commercial, hybrid or electric vehicles all have one thing in common: they need to always be safer, more efficient and perform better. Materials scientists can create or manipulate the properties of materials to achieve these objectives and help with the development of displays, electronics, batteries, optical sensors, or body frames. They also work with catalytic
materials to reduce the impact of environmentally harmful chemical processes.
Materials Science and Engineering and healthcare are intrinsically linked from the development of biocompatible implants to life-changing advances like instant disease detection tests, bone and cartilage regeneration, or 3D-printed organs. The healthcare industry offers unique challenges and the need for materials to perform and behave at the highest standard and with absolute precision.
IT and telecommunications
The increasing demand in ever-faster communication solutions and the increasing volume of data traffis require the development of performance components to improve reliability, durability and high-power transmissions in devices. Materials scientists can offer innovative solutions like the use of graphene in key components for optical and radio communications,
or holographic data storage.
Manufacturing and technology
Materials scientists have always been at the forefront of new technological developments. Collaborating as part of a team, they
conceptualise, design and test lighter, stronger, safer, more durable and economical materials that are integrated in a whole range of devices and applications from toys to touch screens.
Materials scientists observe and study substances at the atomic scale to understand their properties and interactions. Most material properties will change at the nanoscale and understanding these changes can be useful in the discovery and manufacture of nanomaterials for applications in medicine, electronics or energy storage, to name just a few.
Oil and energy
The ability to generate, use and store energy, or extract resources very much depends on the materials the technologies used are made from. The development and performance of batteries, fuel cells, nuclear reactors or solar cells, for example, all very much depend on advances made in Materials Science and Engineering. These progresses can also have a huge impact on sustainability, and the preservation of our environment.
Research and Academia
Students with a strong interest in research often choose to continue their studies and work for higher degrees to specialise in your chosen field. Many of our students decide to teach and we have representatives in all areas from primary schools to A-level and university professors across the globe.