Additively manufactured electronics (AME) or so-called printed electronics are becoming very attractive solutions that can potentially enable the upcoming Internet of Things (IoT) with a wide range of applications in healthcare, automotive, aerospace, and energy industries. To date, most focus has been concentrated on wet printing technologies such as inkjet and aerosol jet printers. However, these technologies suffer from major drawbacks, including complex supply chains, expensive and complicated ink formulation processes, contaminants due to the use of surfactants and ink additives, limited sources of printing inks, and the need for high-temperature post-processing to sinter the particles and remove the surfactants. This talk will present a disruptive additive nanomanufacturing and dry printing technology for multimaterial printing of electronics, sensors, and functional devices. This technology allows in-situ and on-demand generation of various pure nanoparticles (metals, semiconductors, insulators, etc.) in the printer head that are then directed toward the printer nozzle and laser-sintered in real-time to form desired patterns and structures layer-by-layer. This transformative dry printing process opens up an immense opportunity for printing functional structures and devices for various applications on demand.