Photons are ideal carriers of classical and quantum information as they can be transported over long distances via optical fibers and are insensitive to decoherence. For applications in quantum technology it is important to be able to process or store this information. Hence an efficient interaction between light and matter is required, which is not only highly sought after for quantum networks but also for sensing applications. Such an efficient interaction can be achieved by coupling single quantum emitters in solids to a single photons with the aid of nanophotonics. However most solid-state emitters are subject to interactions with phonons from the host crystal which leads to loss of coherence. Quantoom aims to bring the field of solid-state quantum optics to a room temperature environment by employing quantum emitters in 2D materials and investigating their properties at room temperature. A platform based on nanophotonics and solid-state quantum emitters will be established that enables the controlled study of the different origins of the emitters, of interactions between a pre-determined number of quantum emitters and their applications for quantum networks and sensors without the need for a cryogenic environment.