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Specialisation: Chemical and Biomolecular Sciences Innovation

Award(s) to which this specialisation belongs:
 
Specialisation Details

Chemical and Biomolecular Sciences Innovation

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Department:
Department of Chemistry and Biomolecular Sciences
Faculty:
Faculty of Science and Engineering
Admission Requirements:
• Australian level 7 bachelor's qualification or recognised equivalent with at least two units of first year chemistry study or equivalent • GPA of 4.5 (out of 7.0)
Study Mode:
Full-time, Part-time
Attendance Mode:
Internal
Commencement:
North Ryde — Session 1 (February)
North Ryde — Session 2 (July)

600 level

Required
16cp from
16
CBMS units at 600 level

This specialisation must be completed as part of an award. The general requirements for the award must be satisfied in order to graduate.

Requirements for the Specialisation:

Completion of a minimum of 40 credit points including the following prescribed units:

Credit points

800 level

Required
16cp from
16
CBMS units at 800 or 900 level
Required
8cp from
 
BIOL units at 800 or 900 level
 
CBMS units at 800 or 900 level
 
ENVS units at 800 or 900 level
 
GEOS units at 800 or 900 level
 
ITEC units at 800 or 900 level
8
STAT units at 800 or 900 level

TOTAL CREDIT POINTS REQUIRED TO SATISFY THIS SPECIALISATION

40
Additional Information
Overview and Aims of the Program The Chemical and Biomolecular Sciences Innovation Specialisation in the Master of Science is intended to equip students with specialised knowledge and skills to create and develop innovative, practical ideas in Chemistry and Biomolecular Sciences. The development of new products and services in this area requires both practical knowledge and a deep understanding of how to bring together the people and resources necessary to bring ideas to fruition. The program brings together students and practitioners of Chemical and Biomolecular Sciences and culminates in an industry-based internship where students can observe, engage with and contribute to real-word innovation in practice. This may include collaboration with a University research team, where they will gain first-hand experience of world-leading research. In addition to the core units on leadership, innovation and entrepreneurship, students will undertake advanced disciplinary study in Chemical and Biomolecular Sciences.
Graduate Capabilities

The Graduate Capabilities Framework articulates the fundamentals that underpin all of Macquarie’s academic programs. It expresses these as follows:

Cognitive capabilities
(K) discipline specific knowledge and skills
(T) critical, analytical and integrative thinking
(P) problem solving and research capability
(I) creative and innovative


Interpersonal or social capabilities
(C) effective communication
(E) engaged and ethical local and global citizens
(A) socially and environmentally active and responsible

Personal capabilities
(J) capable of professional and personal judgement and initiative
(L) commitment to continuous learning

Program Learning Outcomes By the end of this program it is anticipated you should be able to:

1. Critically analyse issues in STEM innovation and entrepreneurship (T)
2. Carefully evaluate the feasibility of STEM innovative proposals and determine the resources needed to bring ideas to fruition (P,J,T)
3. Develop solutions to innovation and entrepreneurship problems in the STEM context (P,I,T,J)
4. Document and argue for innovative ideas and the means and resources required to realise them (C,T,I)
5. Apply appropriate strategies and techniques to work in and lead teams developing innovative ideas and products (P,I,J,T)
6. Utilise advanced technical knowledge in Chemical and Biomolecular Sciences to a range of advanced, real world, problems (K)
7. Communicate knowledge, skills and ideas relevant to an appropriate professional environment (C)
8. Apply teamwork knowledge and skills for effective collaboration to achieve diverse purposes in a range of contexts (C, E).
9. Demonstrate and apply ethical behaviour in the context of STEM innovation (A, E)
10. Develop the ability to be respond to challenges in Chemical and Biomolecular Sciences with updated knowledge and skills (K,P)
11. Apply recognised methods and appropriate practical techniques and tools in the biomolecular and/or chemical sciences, and be able to adapt these techniques when necessary (K, T, P, L).
12. Communicate chemical and/or biomolecular experimental findings in a variety of forms and to diverse audiences (K, T, I, C)
Learning and Teaching Methods The Master of Science aims to develop flexible, knowledgeable graduates with the skills to become capable practitioners of idea and product innovation. Our program therefore strongly encourages self-directed learning, focussing on developing students' abilities and skills, and not just instilling knowledge.

Learning encompasses both theoretical and practical aspects. Conceptual knowledge is taught via a combination of lectures, tutorials, workshops and online activities. Practical components include laboratories, practical sessions and industry/research internship. Case studies are a central feature of the two core coursework units of the program, demonstrating the applications of concepts to real world situations. Practical exercises will involve both individual and group work. The development and realisation of innovative ideas in science and technology requires the harnessing of the talents of multiple people and graduates will be able to develop skills in working as a part of a group examining and proposing innovative ideas.
Assessment Assessments in the program are designed not only to test students' knowledge and skills but also their ability to integrate and analyse information to solve real-world problems. Assessments are spread throughout the teaching period to enable students to build confidence and gain feedback as they learn. Both formative and summative feedback is provided in the program. Formative feedback, provided while students work on tasks, is given through tutorials and online fora. Summative feedback is provided once each assessment task is completed.

Diverse assessment methods are employed, as the range of units that students may take cover a wide range of disciplines. For discipline specific units, assessment may include, but are not limited to quizzes, written assessments (such as scientific reports, grant proposals, case studies, critiques of the scientific and popular literature) and oral assessment (such as presentations and discussions). Some units may employ examinations.

In the core units of the Master of Science assessment will be mainly by case study, reports and presentations (such as topic discussions and idea pitches). The internship unit’s core assessment will be an in-depth reflective report of your experience during the internship. This will cover both the lessons learnt from the internship, as well as wider issues around innovation, development leadership and entrepreneurship in idea generation and implementation in your chosen discipline.
Recognition of Prior Learning

Macquarie University may recognise prior formal, informal and non-formal learning for the purpose of granting credit towards, or admission into, a program. The recognition of these forms of learning is enabled by the University’s Recognition of Prior Learning (RPL) Policy (see www.mq.edu.au/policy) and its associated Procedures and Guidelines. The RPL pages contain information on how to apply, links to registers, and the approval processes for recognising prior learning for entry or credit. 


Domestic Students
For undergraduate RPL information visit www.goto.mq.edu.au/nonschoolrpl
For domestic postgraduate RPL information visit www.goto.mq.edu.au/pgrpl


International Students
For RPL information visit www.mq.edu.au/international/rpl

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Support for Learning

Macquarie University aspires to be an inclusive and supportive community of learners where all students are given the opportunity to meet their academic and personal goals. The University offers a comprehensive range of free and accessible student support services which include academic advice, counselling and psychological services, advocacy services and welfare advice, careers and employment, disability services and academic skills workshops amongst others. There is also a bulk billing medical service located on campus.

Further information can be found at www.students.mq.edu.au/support/

Campus Wellbeing contact details:
Phone: +61 2 9850 7497
Email: campuswellbeing@mq.edu.au
www.students.mq.edu.au/support/wellbeing

Program Standards and Quality

The program is subject to an ongoing comprehensive process of quality review in accordance with a pre-determined schedule that complies with the Higher Education Standards Framework. The review is overseen by Macquarie University's peak academic governance body, the Academic Senate and takes into account feedback received from students, staff and external stakeholders.

Graduate Destinations and Employability Graduates of this program will have developed a broad range of problem-solving skills, particularly applicable to the development and commercial exploitation of new ideas and new uses for existing ideas in the context of Chemical and Biomolecular Sciences. The program prepares graduates with innovation and technical skills for work in organisations developing new scientific and/or technological products. This program is also suited to industry professionals wishing to update or enhance their skills for career advancement. The skills gained through completing this program will be transferable to a diverse range of career opportunities.
Assessment Regulations

This program is subject to Macquarie University regulations, including but not limited to those specified in the Assessment Policy, Academic Honesty Policy, the Final Examination Policy and relevant University Rules. For all approved University policies, procedures, guidelines and schedules visit www.mq.edu.au/policy.

2017 Unit Information

When offered:
S1 Day
Prerequisites:
Permission of Executive Dean of Faculty
Corequisites:
None
NCCWs:
HSC Chinese, CHN113, CHN148