Adisyn has announced that 2D Generation's subsidiary, 2D Radar Absorbers, has entered into a binding License and Research Agreement with Ramot, the technology transfer company of Tel Aviv University (“TAU”). The agreement grants Adisyn exclusive, worldwide rights to commercialize graphene-based radar signature reduction technology, marking a transition from research to a structured commercial development phase.
This agreement comes at a time of increasing global focus on radar signature management, driven by the rapid expansion of UAV deployment, Loitering Munitions, and the growing sophistication of detection systems across defence and aerospace sectors.
The technology integrates graphene and other 2D materials into composite materials to reduce radar detectability by absorbing and dissipating electromagnetic signals.
Laboratory testing has demonstrated approximately 20dB reduction in radar reflection (~100x reduction in radar return), with ongoing development targeting ~30dB (~1,000x reduction)1. At these levels, radar visibility can be materially reduced, particularly for UAV platforms, potentially reducing detection range and response time in operational environments.
Unlike traditional materials, graphene-enhanced composites combine structural performance with inherent radar absorption, removing the need for additional coatings and enabling lightweight, stealth-enabled designs. This represents a potential step-change compared to existing solutions, which typically require trade-offs between weight, strength and radar performance. To date, testing has been conducted under controlled laboratory conditions, with current and future work focused on validating performance across relevant radar frequencies and real-world environments.
The agreement includes a 12-month AI1 funded research program with Tel Aviv University. The program will focus on improving radar absorption performance, manufacturability and scalability, supporting progression towards commercial deployment and real-world validation. The Company expects the cost of the 12-month research program to be less than AU$100k.
Initial commercial engagement is expected to progress alongside the current development program, with early-stage licensing opportunities anticipated as key technical milestones are achieved.
