Quantum networking leverages entangled photons to establish secure communication channels, making it a crucial component of post-quantum cybersecurity infrastructure. Unlike quantum computing, which is still in its infancy, quantum networks are already being deployed in limited capacities by countries such as China, Europe, and the U.S. for government and research purposes. These early-stage systems comprise three primary network types, including quantum key distribution, which enables secure data transmission. The development of quantum networks has significant implications for cryptographic migration, particularly in light of advancements made by China, which is narrowing the timeline for adopting post-quantum cryptography (PQC)1. This increased urgency underscores the need for practitioners to prioritize PQC planning, as the emergence of quantum networking threatens to render current cryptographic methods obsolete. The industrial potential of quantum networking is substantial, and its impact on cybersecurity will be felt across various sectors, making it essential for organizations to stay ahead of the curve.