The investment in EntroMat is part of Breakthrough Victoria’s $100 million University Innovation Platform (UIP), designed to commercialise critical research from Victorian universities.
Swinburne University of Technology, Deakin University, La Trobe University, University of Melbourne, and Monash University, and have each committed to co-invest $9 million, RMIT- $7.5 million, and Australian Catholic University $7 million, matched by Breakthrough Victoria, to create new pre-seed investment partnerships to drive the commercialisation of university research.
Breakthrough Victoria has now surpassed $1.06 billion in co-investment from seed and later-stage funding. Investment via the UIP positions early-stage companies like EntroMat, for long-term success. These investments not only help retain promising businesses in Victoria, creating jobs and new industries, but also strengthen the state’s innovation ecosystem by attracting further investment.
| The Investment | $1 million |
| The Company | EntroMat |
| The University Partner | Swinburne University of Technology |
| Breakthrough Victoria | $500,000 |
| Swinburne | $500,000 |
About
EntroMat is a Melbourne-based company pioneering the development of High Entropy Materials (HEMs), advanced metal powders engineered for high-performance applications. By combining multiple principal elements, HEMs achieve superior mechanical strength, thermal stability, corrosion resistance, and durability in extreme environments. These groundbreaking materials are transforming industries such as aerospace, mining, energy, and medical technology by offering unprecedented performance and sustainability.
As part of Breakthrough Victoria’s University Innovation Program (UIP), Breakthrough Victoria and Swinburne University are each investing $500,000 in EntroMat. This investment is part of Breakthrough Victoria’s $100 million University Innovation Platform, which accelerates the commercialisation of critical research with real-world applications emerging from Victorian universities. The initiative is supported by significant contributions from multiple universities, including Deakin University, La Trobe University, the University of Melbourne, Monash University, and Swinburne University, each contributing $9 million. RMIT has provided $7.5 million, and Australian Catholic University has contributed $7 million, with all investments matched by Breakthrough Victoria. The goal is to establish new partnerships that will drive research commercialisation and innovation.
The Problem
Traditional materials used in high-performance environments often have significant limitations. They can degrade quickly, lose structural integrity at elevated temperatures, or succumb to corrosion under harsh industrial conditions. These challenges hinder the performance, efficiency, and longevity of critical components in industries such as aerospace, mining, energy, and medical technology.
With increasing demands for sustainable, high-performance materials, industries require innovative solutions that push the boundaries of materials science. However, conventional alloys fail to provide the combination of strength, stability, and durability needed for modern industrial applications, limiting advancements in manufacturing and engineering.
The Solution
EntroMat is addressing these challenges with its proprietary High Entropy Materials (HEMs). HEMs are engineered by combining multiple principal elements, resulting in superior mechanical strength, thermal stability, corrosion resistance, and extended durability in extreme conditions. These unique properties make HEMs a game-changer for advanced manufacturing.
EntroMat’s innovative metal powders are designed for use in various high-impact sectors:
- Mining – Enhancing the wear resistance and service life of heavy-duty components.
- Energy – Offering thermally stable, corrosion-resistant, and high-performance alloys for hydrogen systems, fuel cells, batteries, and thermal power applications.
- Medical Technology – Developing biocompatible, high-strength alloys for durable implants and surgical devices.
- Aerospace – Providing lightweight, high-temperature-resistant materials for aerospace and space applications.
By leveraging computational alloy design, integrating recycled critical elements, and adopting scalable production processes, EntroMat is redefining the future of engineered materials. This breakthrough in materials science strengthens Australia’s sovereign capability in high-value manufacturing, unlocking new possibilities for innovation and sustainability.
Breakthrough Victoria recently celebrated a major milestone, surpassing $1.06 billion in co-investment across seed and later-stage ventures. By co-investing with BVUIP universities in early-stage companies like EntroMat, Breakthrough Victoria is helping position these ventures for long-term success. These investments not only ensure that promising companies remain in Victoria—creating jobs and, in some cases, entire new industries—but also strengthen the state’s innovation ecosystem by attracting additional investment.