Inorganic and composite printed electronics 2012 2022
Aarkstore.com announces, a new market research report is available in its vast collectionInorganic and Composite Printed Electronics 2012-2022 http://www.aarkstore.com/reports/Inorganic-and-Composite-Printed- Electronics-2012-2022-181790.html http://www.aarkstore.com/feeds/IDTechEx-Ltd.xmlSummary:This report critically compares the options, the trends and the emergingapplications. It is the first in the world to comprehensively cover this excitinggrowth area. The emphasis is on technology basics, commercialisation and the keyplayers.This report is suitable for all companies developing or interested in the opportunityof printed or thin film electronics materials, manufacturing technologies or completedevice fabrication and integration.Technologies coveredThe report considers inorganic printed and thin film electronics for displays,lighting, semiconductors, sensors, conductors, photovoltaics, batteries and memorygiving detailed company profiles not available elsewhere. The coverage is global -with companies from East Asia to Europe to America all included.
The application of the technology in relation to other types such as organicelectronics and silicon chips is given, with detailed information clearly summarisedin over 160 tables and figures.Elements being targetedIn order to meet the widening variety of needs for printed and potentially printedelectronics, not least in flexible, low cost form, a rapidly increasing number ofelements are being brought to bear. Oxides, amorphous mixtures and alloys areparticularly in evidence. Even the so-called organic devices such as OLEDs variouslyemploy such materials as B, Al and Ti oxides and nitrides as barrier layers againstwater and oxygen, Al, Cu, Ag and indium tin oxide as conductors, Ca or Mgcathodes and CoFe nanodots, Ir and Eu in light emitting layers, for example.This report is essential for all those wishing to understand this technology, theplayers, opportunities and applications, to ensure they are not surpassed.Table of Contents :1. INTRODUCTION1.1. Printed electronics - reasons why1.2. Impact of printed electronics on conventional electronics1.3. Progress so far1.3.1. The age of silicon1.3.2. The dream of organic electronics1.3.3. The example of smart clothing1.3.4. Slow progress with organic conductors1.3.5. Boron nitride - tailoring carbon composites1.4. The new inorganic printed and thin film devices1.4.1. Rapidly widening choice of elements - déjà vu1.4.2. Example - printed lighting1.4.3. Example - printed photodetectors1.4.4. Inorganic barrier layers - alumina, silicon nitride, boron nitride etc
2. INORGANIC TRANSISTORS2.1. Inorganic compound semiconductors for transistors2.1.1. Learning how to print inorganic compound transistors2.1.2. Zinc oxide based transistor semiconductors and Samsung breakthrough2.1.3. More work on inorganic transistors: Progress at Evonik2.1.4. Amorphous InGaZnO2.1.5. Gallium-indium hydroxide nanoclustersMore Report:Electric Vehicles 2012-2022Marine Electric Vehicles 2012-2022Industrial and Commercial Electric Vehicles 2012-2022Car Traction Batteries - the New Gold Rush 2012-2022Conductive Ink Markets 2012-2018 Silver and Copper Inks and Pastes and BeyondStretchable Electronics Comes to MarketFor More details Plz do contact :Aarkstore EnterprisePhone:08149852585Email: firstname.lastname@example.orgURL:www.aarkstore.comOur Website :www.aarkstore.comFacebook: http://www.facebook.com/aarkstoreLinkedin: http://in.linkedin.com/in/aarkstore