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Nanoscale systems are ideally suited to study quantum mechanical effects and explore these as resources for emerging quantum technology such as quantum sensing, communication or computing.
To achieve the biggest impact, nanotechnology-based strategies developed to manage infectious diseases in resourced-limited settings need to take into account the local context.
Flexibly designed nanomaterials can trigger specific immune responses and might offer promising alternatives to traditional immunosuppressive therapies, cancer immunotherapies and vaccine formulations.