Researchers have discovered a link between contextuality breaking and incompatibility breaking qubit channels, shedding light on the interconnected nature of nonclassicality and quantum correlations. This breakthrough stems from recent studies on measurement incompatibility and its relationship to nonlocality, particularly in terms of robustness under various quantum channels. By examining the effects of different channels on qubits, scientists can better understand the fundamental aspects of quantum mechanics and their implications for quantum computing and cryptography. The connection between contextuality and incompatibility has significant implications for the development of quantum technologies, as it can inform the design of more robust and secure quantum systems. Specifically, this research can help establish a deeper understanding of quantum nonlocality and its applications, such as quantum key distribution and quantum teleportation1. This matters to practitioners because it can lead to the development of more secure quantum communication protocols, ultimately rewriting assumptions about computation and cryptography.