Nanotechnology is a specialisation within a Bachelor of Science. This specialisation is also available within the 4 year Bachelor of Science (Honours). This degree will equip you to be a part of this new industrial revolution. You will graduate ready to start working in a variety of scientific professions and to play a leading role in the future as nanotechnology grows, matures and reveals its full potential. Nanotechnology draws on the strengths of all the basic sciences and the course will give you a strong background in these sciences. In particular, there is an emphasis on developing computational skills and an awareness of the roles and uses of computers in science and society. From Second Year you will choose to specialise in one of two areas: Biomedical Nanotechnology; Quantum Nanostructures.
The Nanotechnology / Science double degree program aims to provide students with a broad education in disciplines that will underpin the science and technology, in particular nanotechnology, in the coming years. Our double degree course structure provides full coverage of subject areas, avoiding the compromises of shorter niche degrees where the supporting sciences are reduced to include the nanotechnology units.
Murdoch University offers the undergraduate degree Bachelor of Science in Nanoscience which may be completed in three years of full-time study or over a longer period on a part-time basis. A fourth year of study and research is available if you are selected for an Honours degree.
With this course you will explore classical and modern physics, investigating the physical world around us and beyond. You'll also learn about Nanoscience, the science of the really small, and gain an understanding of the rules and complexities of physics at finer and finer levels.
This four year program combines majors in nanotechnology and either physics or chemistry and encompasses physical, chemical, biological and engineering nanoscience and nanotechnology. This double degree provides a strong grounding in nanotechnology, the science and engineering of materials less than a micrometer in size across the disciplines of physics and chemistry with substantial biology and engineering components.
This program leads to the award of a Bachelor of Science in Nanotechnology over four years of full-time study, with Honours for students who perform with merit. At present, the principal entry point into this degree is at Stage 1 level. Students are normally expected to complete each stage before proceeding to the next stage. A total of 192 units of credit (UOC) must be completed for the award of this degree.
The Innovation Management Dual Majors prepare students for the growing focus of Biotechnology organizations and University/Public Sector based research groups on seeking markets for their scientific outputs.
The honours degree is a one-year, full-time program undertaken following the completion of the pass degree. The main component of the course is a research project conducted within one of the UTS research groups, or jointly with an external organisation. This prepares students in aspects of planning and executing a research program to address a specific scientific or technological problem.
This program investigates the basic theory and applications of nanotechnology in the biological and chemical sciences, in physics and in engineering science. One of these four streams is completed at Levels 2 and 3, with a major project unit in nanotechnology at Level 3.
Medical Nanotechnology is the application of the methods and techniques of Nanotechnology to medical and health areas. The student may also choose to specialise in Nanophysics or Nanochemistry opening up alternative career paths in industry (biotechnology, pharmaceutical, health, defence, chemical, petroleum, materials and engineering).
The Bachelor of Nanotechnology is an interdisciplinary degree which is jointly offered by the Faculties of Engineering and Science. The degree targets the emerging field of nano-materials, molecular machines and nano-science. The course draws on major research strengths at UOW including: the Intelligent Polymer Research Institute, the Institute for Superconducting and Electronic Materials, the BlueScope Steel Metallurgy Centre and the ARC Centre of Excellence for Electromaterials Science.