Paragraf and Archer Materials have initiated a joint research and development program to create graphene-based devices for next-generation quantum computing hardware1. The collaboration centers on designing graphene device architectures that can enhance qubit detection and interfacing, capitalizing on graphene's exceptional electronic mobility, low noise, and atomic-scale thickness. By merging scalable graphene manufacturing capabilities with quantum device expertise, the companies aim to expedite prototyping and establish a pipeline of cutting-edge technologies. This strategic partnership has the potential to significantly advance quantum measurement and control, paving the way for more sophisticated quantum computing systems. The development of graphene-based quantum devices could have profound implications for the future of computation and cryptography, making it essential for practitioners to stay informed about these advancements.