Overview

The Graduate Diploma in Nanotechnology requires 1 year of full-time study (or the equivalent part-time). The course is offered by the College of Science and Engineering.The course articulates with the 72 unit Master of of Nanotechnology, and the sequentially developed topics enable progression through the two awards.

Student guidance

Program of study overview
Program of study notes

Program of study
36 Units

Year 136 Units

Admission requirements

Admission requirements
English Language requirements

Aims

The primary aim of this course is to facilitate skills transfer from another relevant area of engineering or science and technology to the study of nanotechnology. Students will develop the capacity to:

  • Understand the basic scientific concepts underpinning nanoscience
  • Understand the properties of materials and biomaterials at the atomic/molecular level and the scaling laws governing these properties
  • Understand current frontier developments in nanotechnology nationally and internationally
  • Recognise and develop novel and innovative ideas
  • Demonstrate ability in a range of laboratory methods, specifically the fabrication and characterisation tools used in nanotechnology such as various microscopies, surface modifications and molecular level construction methods
  • Embrace the multidisciplinary aspects of nanotechnology which is core to its understanding and engage positively with people and ideas in many disciplines
  • Demonstrate communication, problem-based and critical thinking skills that will promote life long learning in their future careers
  • Work independently and take responsibility for updating and adapting their knowledge and skills
  • Appreciate the emerging role of nanotechnology in society, the regulatory framework within which it operates and the ethical issues it raises
  • Work cooperatively and productively within a team

Learning outcomes

On completion of the course you will be able to:
1.
Have a sound grounding and expert knowledge in multidisciplinary areas of nanoscience
2.
Have a sound grounding in and expert knowledge of the basic sciences relevant to employment or further study in the traditional sciences
3.
Have a grounding in economics and commerce relevant to the needs of high-technology companies
4.
Work in a high tech work force or pursue a research higher degree in nanotechnology
5.
Analyse and critically evaluate ideas/information/data and apply relevant scientific principles to solve problems by, for example, creating hypotheses, testing theories and predictions, designing and carrying out experiments and analysing reported data
6.
Design and carry out experiments using both classical and novel science techniques and protocols
7.
Communicate their findings to a variety of audiences in written and spoken form through debates, posters, reports and oral presentations
8.
Appreciate that the relationships and connections across the sciences and non-science disciplines are core to nanotechnology and understand such relationships and connections
9.
Work and learn independently and appreciate the need for life-long learning
10.
Interact effectively as part of a team in order to achieve common goals

Associations

Nested association