Industry

Industry

Helping you find new business opportunities

Realise your business objectives by working with us. With 96 per cent of Macquarie University’s research disciplines rated at world standard or higher (Excellence in Research for Australia, 2015), we can help you create solutions that are informed by some of the world’s most innovative thinking.

We offer flexible solutions through every stage of the innovation and commercialisation process. Our objective is to achieve win-win deals.

Contact us to discuss your individual needs, or explore our current licencing opportunities below.

Medicine

This novel and disease-modifying approach is based on a validated Mechanism of Action involving an endogenous clearance pathway.

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Alzheimer’s disease (AD) is the most prevalent neurological and neurodegenerative condition in humans, characterised by progressive loss of cognition resulting eventually in the inability to cope with daily living.

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Using diamond Raman technology, a pump beam can be efficiently converted to a longer wavelength output beam using 1, 2 or more Stokes shifts of the Raman medium. For example, a 1.06 μm laser pump beam can be efficiently converted to a 1.5 μm output beam.

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High thermal conductivity Raman materials such as diamond can be used to mitigate thermal lensing enabling operation over a very wide power range without compromising output beam quality.

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Macquarie’s diamond-based High Energy Laser (HEL) tech runs at an eye safer 1.24 µm, with unprecedented ultra-high power potential of 100’s of kW to MWs. This technology is transformative as beam-conversion in diamond can substantially raise the power barrier.

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Design of continuous-wave Raman lasers, particularly yellow.

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A glass that would perform as an optical platform for laser written waveguides to produce optical integrated circuits for integrated photonic applications. The glass is easily tuneable for its optimal performance based on its application ranging from display devices to astrophotonics.

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Iterative compressive sensing direction of arrival estimation (icsDOA) is the most advanced technology to determine the location of origin for radio, radar or sonar.

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Determination of the angle of arrival of a radio signal by the signal complex voltages obtained at the outputs of antenna elements configured in a circular array and unique signal processing of these signals.

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2018058 Power Amplifier Power amplifier with inbuilt thermal sensor

This electronic real-time monitoring system enables microsecond accurate measurements of the temperature of a transistor.

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The elimination of airbridge structures improves bandwidth and reduces the overall size.

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A novel enhancement of the FET mixer concept for GaN FETs with field-plate technology.

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A novel variant of RCA conferring greater photosynthetic performance at elevated temperatures, and enabling crops to be more productive in hotter regimes.

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Fruit Fly Effective, safe and novel insect repellent for use in crop protection

A novel repellent effective against several fruit fly species.

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Fungal Lacasse Heterologous expression of functional fungal laccase in animals for bioremediation of environmental pollutants

Utilising low-cost organic waste streams as feedstocks and simplified infrastructure for biomanufacturing with minimal use of water.

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Genetically engineered microbial (yeast or bacterial) synthetic strains which will be utilised for enhanced PE degradation and subsequent chemical commodity production (including but without limitation to biofuels, nutrient sources and fertilizers).

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Contact our experts

Anna Grocholsky, Director Commercialisation and Innovation

Anna is a successful strategist, negotiator and intellectual property specialist.  With a materials science background Anna then broadened her skills and qualifications through management, creative problem solving and law. Anna is a registered trade marks attorney and is one of a handful of Australians with the attainment of a Registered Technology Transfer Professional (RTTP) through the global Alliance of Technology Transfer Professionals.

After successfully specialising in product development at A Gonian & Co, Email Limited and James Hardie Industries Ltd., Anna embraced the challenges of Intellectual Property and commercialisation moving into roles at Sydney University in business development and IP management.  In 2011 Anna established her own thriving IP and commercialisation business.  Clients include individuals, small and medium enterprises and larger companies and institutes.  In the two years Anna has been at Macquarie there has been an increase in innovation disclosures and commercial deals have doubled  Anna has also rolled out the Research Engagement, Impact and Commercialisation Framework, IP Guiding Principles and Startup Checklist.

Anna welcomes the opportunity to promote innovations generated within the Macquarie University research community and to foster commercialisation partnerships by engaging with an entrepreneurial spirit.

Phone: +61 2 9850 4599   or +61 (0) 437 463 317
Email: anna.grocholsky@thegraphicsshoppeclub.com

Bruce Lee, Commercialisation and Innovation Manager (Life Sciences)

Phone: +61 2 9850 4542
Email: bruce.lee@thegraphicsshoppeclub.com

Bel Coppock, Intellectual Property Portfolio Manager

Bel has a diverse background in events, regional marketing, customer service and patent management. Bel is responsible for keeping the Office of Commercialisation organised.  She also liaises with Macquarie University's existing pool of inventors and administers royalty payments.

If you have any questions about the commercialisation process at Macquarie University, please talk to Bel.

Phone: +61 2 9850 4598  
Email: belinda.coppock@thegraphicsshoppeclub.com

Content owner: Commercialisation and Innovation Last updated: 12 Jan 2022 4:38pm

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