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02827aam a2200409Ka 4500 001 18FF3E1CFE5F11E2B6A414D3DAD10320 003 SILO 005 20130806010419 006 m d f 007 cr mn||||||||| 008 071004s2006 coua st f000 0 eng d 035 $a (OCoLC)173666150 040 $a SOE $c SOE $d GPO $d MvI $d SILO 074 $a 0430-P-05 (online) 086 0 $a E 9.18:NREL/SR-520-40044 088 $a NREL/SR-520-40044 100 1 $a Carter, Sue A. 245 10 $a Polymer hybrid photovoltaics for inexpensive electricity generation $h [electronic resource] : $b final technical report, 1 September 2001 - 30 April 2006 / $c S.A. Carter, University of California-Santa Cruz. 256 $a Electronic data (1 PDF file : 1.1 Mb) 260 $a Golden, Colo. : $b National Renewable Energy Laboratory, $c [2006] 300 $a iii, 13 p. : $b digital, PDF file. 440 0 $a NREL/SR $v 520-40044 500 $a "July 2006." 538 $a Mode of access: Internet from the NREL web site. Address as of 3/28/08: http://www.nrel.gov/docs/fy06osti/40044.pdf ; current access available via PURL. 500 $a Title from title screen (viewed Mar. 28, 2008). 520 3 $a The project goal is to understand the operating mechanisms underlying the performance of polymer hybrid photovoltaics to enable the development of a photovoltaic with a maximum power conversion efficiency over cost ratio that is significantly greater than current PV technologies. Plastic or polymer-based photovoltaics can have significant cost advantages over conventional technologies in that they are compatible with liquid-based plastic processing and can be assembled onto plastic under atmospheric conditions (ambient temperature and pressure) using standard printing technologies, such as reel-to-reel and screen printing. Moreover, polymer-based PVs are lightweight, flexible, and largely unbreakable, which make shipping, installation, and maintenance simpler. Furthermore, a numerical simulation program was developed (in collaboration with IBM) to fully simulate the performance of multicomponent polymer photovoltaic devices, and a manufacturing method was developed (in collaboration with Add-vision) to inexpensively manufacture larger-area devices. 530 $a Full text available via Internet in .pdf format. Adobe Acrobat Reader required. 650 0 $a Photovoltaic cells $x Research. 650 0 $a Solar cells $x Computer simulation. 650 0 $a Polymers $x Testing 710 2 $a University of California, Santa Cruz. 710 2 $a National Renewable Energy Laboratory (U.S.) 856 40 $u http://purl.access.gpo.gov/GPO/LPS92560 941 $a 2 952 $l UPAX334 $d 20230104041322.0 952 $l USUX851 $d 20160824054353.0 956 $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=18FF3E1CFE5F11E2B6A414D3DAD10320Initiate Another SILO Locator Search