Inorganic And Composite Printed Electronics 2014-2024
There is increasing work on printed inorganics as people struggle with the performance of organics in some aspects. For conductors with vastly better conductance and cost, for the best printed batteries, for quantum dot devices and for transistor semiconductors with ten times the mobility, look to the new inorganics. That is the emerging world of new nanoparticle metal and alloy inks that are magnitudes superior in cost, conductivity and stability, such as the flexible zinc oxide based transistor semiconductors working at ten times the frequency and with best stability and life, along with many other inorganic materials. Read the world's only report that pulls all this together in readable form.
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This report critically compares the options, the trends and the emerging applications. It is the first in the world to comprehensively cover this exciting growth area. The emphasis is on technology basics, commercialisation and the key players.
This report is suitable for all companies developing or interested in the opportunity of printed or thin film electronics materials, manufacturing technologies or complete device fabrication and integration.
This report reveals the rapidly increasing opportunities for inorganic and composite chemicals in the new printed electronics, given that so much of the limelight is on organics. Inorganics encompass various metals, metal oxides as transparent conductors (such as fluorine tin oxide or indium tin oxide, extensively used in displays and photovoltaic technologies) or transistor materials as well as nano-silicon or copper and silver inks, whether in particle or flake form. Then there are inorganic quantum dots, carbon structures such as graphene, nanotubes and the various buckyballs etc. However, there is much more, from light emitting materials to battery...