Enhancing Efficiencies in Printed Solar Cells by Controlling Morphology Development Lead organisation: University of Melbourne - Organic solar cells - Document - PDFSEARCH.IO

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	Enhancing Efficiencies in Printed Solar Cells by Controlling Morphology Development Lead organisation: University of Melbourne Add to Reading List Document Date: 2014-11-20 19:49:33 Open Document File Size: 966,00 KB Share Result on Facebook Company Boc group / / / Facility Effectiveness The laboratory / University of Melbourne / Karlsruhe Institute of Technology / / IndustryTerm energy levels / large scale printing / large scale printing program / printing program / subsequent processing / post film processing / printing trials / inherent chemical nature / printing presses / printing conditions / optimised printing process / bilayer device / bulk heterojunction device / printing process / slot die printing / dynamic new technology / subsequent printing operations / printing capability / / Organization University of Melbourne / Controlling Morphology Development Lead / Institute of Technology / / Person David Jones / / / Position Coordinator / / Product Polyethylene glycol / / Technology 6 Transferability The technology / X-ray / 3-D / tomography / / SocialTag Energy Organic semiconductors Organic polymers Energy conversion Photovoltaics Poly PEDOT:PSS Dye-sensitized solar cell Thin film Solar cells

Enhancing Efficiencies in Printed Solar Cells by Controlling Morphology Development Lead organisation: University of MelbourneAdd to Reading List