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Inorganic and Composite Printed Electronics 2008-2018
IDTechEx, Aug 2008, Pages: 268
This unique report assesses the huge opportunities for fine chemicals, printing, production equipment and electronics companies in the largest part of the emerging $300 billion printed electronics business. Semiconductors, dielectrics, conductors, light emitters etc for displays, photovoltaics, transistors and much more are covered. Company profiles and ten year forecasts are given.
It is often argued that the inorganic options are interim, because the progress is coming to an end whereas organics are 'future proof'. Nothing could be further from the truth. 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.
Detailed forecasts:
In 2008 We found that the amount spent on inorganic electronic components and inorganic materials for composite components will be $861 million - more than that spent on organic electronics. Much of this is in fairly mature markets - metal flake ink used for conductors in heated windscreens, membrane keyboards and circuit boards; and disposable sensors for the multi billion glucose sensor labels sold yearly. However, also making an impact in 2008 in this figure are electrophoretic, electroluminescent and electrochromic displays, laminar batteries and thin film photovoltaics such as CIGS and CDTe devices.
In 2008 inorganic semiconductors will begin to be sold from companies such as Kovio for RFID tags, being able to perform to existing RFID tag standards thanks to much higher mobilities than organic semiconductors.
Technologies covered:
The report considers inorganic printed and thin film electronics for displays, lighting, semiconductors, sensors, conductors, photovoltaics, batteries and memory giving detailed company profiles not available elsewhere. The coverage is global - with companies from East Asia to Europe to America covered in this report. The full contents list is shown at the bottom of this page.
The application of the technology in relation to other types such as organic electronics and silicon chips is given, with detailed information clearly summarised in over 135 tables and figures, such as those below. The table shows the likely impact of inorganic printed and potentially printed technology to 2018 by giving the dominant chemistry by device and device element. Dark green shows where inorganic technology is extremely important for the active (non-linear) components such as semiconductors. Light green shows important contributions from hybrid inorganic-organic technology. Red shows where organic technology has the greatest potential over inorganic.
Value chain dynamics studied:
For some, it becomes a matter of 'Shall I make the new inorganics printable?' or 'Shall I make organics work better?' Not everyone is jumping the same way. Indeed there is a spectrum of choice as shown in the figure below. Here we are simplifying in calling the right side 'organic' because it almost always involves metal conductors, just as the left side often involves organic substrates. The technologies live together - and that is not just an interim stage.
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