Master of Biotechnology (Professional)
2024 Deakin University Handbook
Year | 2024 course information |
---|---|
Award granted | Master of Biotechnology (Professional) |
Deakin course code | S713 |
Faculty | Faculty of Science, Engineering and Built Environment |
Campus | Offered at Waurn Ponds (Geelong) |
Online | No |
Duration | 2 years full-time or part-time equivalent |
Course Map - enrolment planning tool | These course maps are for new students commencing from Trimester 2 2024:
|
CRICOS course code | 113876H Waurn Ponds (Geelong) |
Australian Qualifications Framework (AQF) recognition | The award conferred upon completion is recognised in the Australian Qualifications Framework at Level 9 |
New course from Trimester 2, 2024 |
Course sub-headings
- Course overview
- Indicative student workload
- Career opportunities
- Participation requirements
- Mandatory student checks
- Pathways
- Alternative exits
- Fees and charges
- Course Learning Outcomes
- Course rules
- Course structure
- Work experience
Course overview
Become an in-demand biotechnology expert and create innovative solutions to global issues when you study a Master of Biotechnology (Professional) at Deakin. From pioneering medical advancements to cutting-edge solutions to food, agricultural and environmental problems, you’ll gain advanced technical skills to build a global career effecting positive change. Graduate with the high-level biotechnology knowledge, practical laboratory and fieldwork experience, and professional networks you need to succeed in a booming industry.
Learn under internationally recognised researchers and discover how to take your specialist knowledge of biotechnology from the lab and apply it across genetic, chemical, industrial and agricultural settings. Your biotechnology expertise will be complemented by skills in statistical data analysis, computer coding, research and a well-developed understanding of the commercial biotechnology environment – giving you the confidence to thrive across a range of industries when you graduate. In your first year, you’ll gain in-depth biotechnology knowledge before pursuing a pathway in research, industry placement or advanced coursework.
Want to explore emerging topics in biotechnology and pursue a career that makes a difference?
During your first year, you’ll advance your knowledge in:
- professional research practice
- molecular biotechnology
- biostatistics
- agricultural biotechnology
- nanobiotechnology
- industrial biotechnology
- applied bioinformatics.
In addition to building advanced knowledge, you’ll get hands-on experience using various molecular biotechnologies and bioinformatics tools, along with the opportunity to operate analytical equipment like those used in industrial-scale production facilities, such as cell-culture bioreactors. During your degree, you’ll also develop crucial research management and business skills that employers are looking for.
Tailor your studies to your professional interests in your second year by choosing one of three study pathways:
- research, where you’ll develop advanced industry-oriented scientific research skills
- industry practice, where you’ll gain invaluable professional work experience
- advanced coursework, where you’ll further your biotechnology knowledge under the supervision of our internationally recognised research staff.
Connections to industry are an integral part of this course, providing you with invaluable industry perspectives and allowing you to establish professional networks before you graduate. Guest lectures from key industry partners and field work are embedded into the curriculum to provide a deeper understanding of industry-engaged research and commercialisation in the biotechnology environment.
Harness the latest in scientific discovery under the guidance of our expert staff and graduate with the diverse skills to tackle critical global healthcare, food and environmental problems.
Indicative student workload
You can expect to participate in a range of teaching activities each week. This could include classes, seminars, site visits and online interaction. You can refer to the individual unit details in the course structure for more information. You will also need to study and complete assessment tasks in your own time.
Career opportunities
Graduate with the in-depth scientific knowledge and transferrable technical and commercial skills to build a rewarding career in a rapidly growing industry. With a highly relevant and extremely versatile biotechnology qualification, you’ll be uniquely positioned to pursue a wide range of exciting roles in industry, education, government, policy development and teaching.
Depending on your chosen area/s of expertise, you can make an impact across a wide range of careers, including as a:
- bioinformatician animal scientist
- botanist
- chemist
- food scientist
- material scientist
- metallurgist
- molecular biologist
- medical scientist
- trainee patent attorney
- agriculture technologist
- researcher.
With the potential to work globally in a broad range of industries, your potential employers might include:
- CSIRO
- government research institutes and departments
- private research institutes
- health sector
- private commercial companies
- industrial research companies
- universities
- agriculture and food sector
- local councils and public service.
A biotechnology qualification is also highly relevant and extremely versatile in research and development roles within both public and private sector research institutes. Many biotech companies engaged in manufacturing employ qualified biotechnologists as manufacturing associates in a supervisory and management capacity.
Graduates also can become biotech product specialists and play a valuable role in marketing and selling a variety of biotechnological products, from biotech instruments to reagents related to genomics or proteomics. Many biotechnologists are also engaged in the rapidly expanding field of bioinformatics and contribute towards drafting biotech patent applications under the supervision of a patent lawyer.
Participation requirements
Elective units may be selected that include compulsory placements, work-based training, community-based learning or collaborative research training arrangements.
Reasonable adjustments to participation and other course requirements will be made for students with a disability. More information available at Disability support services.
Mandatory student checks
Any unit which contains work integrated learning, a community placement or interaction with the community may require a police check, Working with Children Check or other check.
Pathways
Graduates will be uniquely positioned to commence a PhD.
Alternative exits
Graduate Certificate of Bioinformatics (S513) | |
Graduate Diploma of Biotechnology (S613) | |
Master of Biotechnology (S712) |
Fees and charges
Fees and charges vary depending on the type of fee place you hold, your course, your commencement year, the units you choose to study and their study discipline, and your study load.
Tuition fees increase at the beginning of each calendar year and all fees quoted are in Australian dollars ($AUD). Tuition fees do not include textbooks, computer equipment or software, other equipment or costs such as mandatory checks, travel and stationery.
Use the Fee estimator to see course and unit fees applicable to your course and type of place. For further information regarding tuition fees, other fees and charges, invoice due dates, withdrawal dates, payment methods visit our Current students website.
Course Learning Outcomes
Deakin Graduate Learning Outcomes | Course Learning Outcomes |
Discipline-specific knowledge and capabilities | Develop deep knowledge of biotechnology, and the ability to apply it in different arenas including the genetic, chemical, industrial and agricultural settings. Using scientific process and knowledge of research planning to conduct research for discovery as well as development of commercially valuable products. Ability to use bioinformatics skills to analyse large research data sets and make valid inferences using rigorous statistical methods. |
Communication | Demonstrate well developed communication skills both written and oral in a range of settings including among peers, to academic staff, industry contacts and outreach to the general public. Articulate scientific information in a structured form to describe scientific problems, formulate hypotheses, analyse evidence to support or oppose the interpretations of findings and conclusions, considering the evidence from scientific studies. |
Digital literacy | Evaluate information using evidence from a range of reliable sources to establish scientific knowledge, recognise ambiguity and disseminate accurate information. Apply existing analytical tools (bioinformatics) and data resources to solve problems and use computer programming to develop new methods and resources to advance biotechnology. |
Critical thinking | Use abstract, analytical and logical reasoning to critically evaluate scientific evidence arguments and approaches. Apply critical reasoning in a variety of situations to scope, interpret and structure investigations to develop an in-depth knowledge for professional biotechnological practice. Use statistical thinking to determine the strength of scientific evidence. |
Problem solving | Identify scientific problems and use systematic approaches and experimental strategies to formulate and propose solutions by considering relevant discipline and contextual factors. Use judgement to convince scientific and non-scientific audiences, in the use of strategies to generate solutions to real world problems. |
Self-management | Evaluate own knowledge and skills using frameworks of reflection and take responsibility for learning and performance. Work responsibly and safely in scientific and professional environments to enrich the ideas of others by sharing learning experiences. |
Teamwork | Work effectively as a team member, assuming various roles and utilising effective teamwork skills to achieve goals. Ability and courage to step into a leadership role when the situation demands. |
Global citizenship | Apply ethical practice in professional situations to demonstrate responsibility as practitioners when working with people from diverse cultures and communities. Identify and prioritise local, national and global issues and concerns and contribute towards solving real world problems from the perspective of biotechnology. |
Approved by Faculty Board 1 June 2023
Course rules
To complete the Master of Biotechnology (Professional), students must attain 16 credit points, which must include the following:
- DAI001 Academic Integrity Module (0-credit point compulsory unit)
- STP710 Career Tools for Employability (0-credit point compulsory unit)
- SLE010 Laboratory and Fieldwork Safety Induction Program (0-credit point compulsory unit)
- seven (7) core units (7 credit points)
- a nine (9) credit point pathway in:
-
- Research pathway (subject to meeting unit requirements)* OR
- Industry practice pathway (subject to meeting unit requirements)^ OR
- Advanced discipline coursework pathway.
* Students must have passed 7 level 7 units (6 units must be SLE coded units) and a WAM of 70 to be eligible for the Research Pathway.
^ Students must have passed STP710 Career Tools for Employability (0-credit point compulsory unit), and must have successfully completed 8 credit points of study in level 7 units and have a minimum WAM of 70 to be eligible for the Industry Practice Pathway.
Students are required to meet the University's academic progress and conduct requirements.
Course structure
Core
DAI001 | Academic Integrity Module (0 credit points) |
STP710 | Career Tools for Employability (0 credit points) |
SLE010 | Laboratory and Fieldwork Safety Induction Program (0 credit points) |
SLE703 | Agricultural Biotechnology |
SLE712 | Molecular Biotechnology |
HSH746 | Biostatistics 1 |
SLE761 | Professional Research Practice |
SLE706 | Nanobiotechnology |
SLE713 | Industrial Biotechnology |
SLE777 | Applied Bioinformatics |
Pathway options
Chosen from the following professional studies pathways:
Research pathway
SLE763 | Research Project Planning |
SLE764 | Research Project (4 credit points) |
SLE765 | Research Project (Advanced) (4 credit points) |
OR
Industry practice pathway
SLE767 | Industry Practice Planning |
SLE717 | Synthetic Biology |
SLE718 | Green Chemistry and Industrial Bioprocessing |
SLE766 | Industry Practice (4 credit points) last offered in 2024 |
plus two (2) level 7 open elective units (2 credit points)
OR
Advanced discipline coursework pathway
SLE767 | Industry Practice Planning |
SLE717 | Synthetic Biology |
SLE718 | Green Chemistry and Industrial Bioprocessing |
SIT771 | Object-Oriented Development |
SIT718 | Real World Analytics |
MPM712 | Managing Innovation |
plus three (3) level 7 open elective units (3 credit points)
Work experience
Students will have an opportunity to complete work experience as part of the industry practice pathway.
Other course information
Course duration
Course duration may be affected by delays in completing course requirements, such as accessing or completing work placements.
Further information
Student Central can help you with course planning, choosing the right units and explaining course rules and requirements.
- Contact Student Central