en.Wedoany.com Reported - Simble Solutions Ltd has announced a strategic research partnership with Macquarie University aimed at accelerating the development and commercialization of its exclusive nanosensor technology, with applications extending to soft robotics, healthcare, industrial monitoring, and environmental protection.

This collaboration builds on Simble's acquisition of Next Nano Pty Ltd, which holds an exclusive commercialization license for the relevant technology from Macquarie University. Under the new agreement, both parties will jointly fund a two-year research program to advance the technology platform toward commercial deployment. Two PhD graduates will work under the guidance of Macquarie University researcher Professor Noushin Nasiri, with Simble contributing AUD 288,000 to project costs over two years.

The research program will initially focus on developing nanosensor technology for electronic skin applications in next-generation soft robotics, ultraviolet dosimetry, and health monitoring. The collaboration also opens pathways to explore broader commercial opportunities, including wearable safety devices, industrial process optimization, environmental monitoring, and infrastructure management. Simble believes that leveraging Macquarie University's research expertise and infrastructure will improve capital efficiency while accelerating product development and time-to-market. The company retains exclusive commercialization rights to any technological improvements arising from the collaboration.

The technology is based on a semiconductor 3D zinc oxide nanostructure architecture designed to overcome the limitations of traditional sensing hardware. According to Simble, the platform offers high sensitivity for environmental and optical sensing applications while maintaining an ultra-small footprint and low power consumption, making it suitable for battery-powered IoT devices. The nanosensors can be integrated into wearable systems, devices, and existing installations to create continuous monitoring capabilities, generating real-time data, alerts, and analytics. Potential applications include workplace safety monitoring in hazardous environments, industrial equipment health tracking, and chemical detection for environmental and facility management. Advantages of the technology include: high sensitivity in environmental and optical sensing applications, sub-millimeter dimensions enabling seamless device integration, ultra-low power consumption suitable for battery-powered IoT deployments, and flexible integration into existing devices, installations, and wearable systems.

In addition to new product development, Simble is also exploring opportunities to integrate the nanosensor technology into its existing SimbleSense and CarbonView platforms. This move could reduce reliance on third-party hardware suppliers while creating cross-selling opportunities in the growing global IoT sensor market. The company views this collaboration as a critical step in transforming the technology from university innovation into a scalable commercial platform.

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