date: 2012-02-22T08:19:17Z
pdf:PDFVersion: 1.5
pdf:docinfo:title: Spectroscopic Investigation of Composite Polymeric and Monocrystalline Systems with Ionic Conductivity
xmp:CreatorTool: Microsoft® Office Word 2007
access_permission:can_print_degraded: true
subject: The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups an
language: en-US
dc:format: application/pdf; version=1.5
pdf:docinfo:creator_tool: Microsoft® Office Word 2007
access_permission:fill_in_form: true
pdf:encrypted: false
dc:title: Spectroscopic Investigation of Composite Polymeric and Monocrystalline Systems with Ionic Conductivity
modified: 2012-02-22T08:19:17Z
cp:subject: The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups an
pdf:docinfo:subject: The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups an
pdf:docinfo:creator: Darya V. Radziuk *
meta:author: Helmuth Möhwald
meta:creation-date: 2011-03-24T17:22:38Z
created: 2011-03-24T17:22:38Z
access_permission:extract_for_accessibility: true
Creation-Date: 2011-03-24T17:22:38Z
Author: Helmuth Möhwald
producer: Microsoft® Office Word 2007
pdf:docinfo:producer: Microsoft® Office Word 2007
pdf:unmappedUnicodeCharsPerPage: 0
dc:description: The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups an
Keywords: polymer; electrolyte; lithium ion; battery; conductivity
access_permission:modify_annotations: true
dc:creator: Helmuth Möhwald
description: The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups The conductivity mechanism is studied in the LiCF3SO3-doped polyethylene oxide by monitoring the vibrations of sulfate groups an
dcterms:created: 2011-03-24T17:22:38Z
Last-Modified: 2012-02-22T08:19:17Z
dcterms:modified: 2012-02-22T08:19:17Z
title: Spectroscopic Investigation of Composite Polymeric and Monocrystalline Systems with Ionic Conductivity
xmpMM:DocumentID: uuid:c0712dae-bdef-4853-b005-07d3c9154ad9
Last-Save-Date: 2012-02-22T08:19:17Z
pdf:docinfo:keywords: polymer; electrolyte; lithium ion; battery; conductivity
pdf:docinfo:modified: 2012-02-22T08:19:17Z
meta:save-date: 2012-02-22T08:19:17Z
Content-Type: application/pdf
X-Parsed-By: org.apache.tika.parser.DefaultParser
creator: Helmuth Möhwald
dc:language: en-US
dc:subject: polymer; electrolyte; lithium ion; battery; conductivity
access_permission:assemble_document: true
xmpTPg:NPages: 19
pdf:charsPerPage: 2042
access_permission:extract_content: true
access_permission:can_print: true
meta:keyword: polymer; electrolyte; lithium ion; battery; conductivity
access_permission:can_modify: true
pdf:docinfo:created: 2011-03-24T17:22:38Z