000186129 001__ 186129
000186129 005__ 20240708132735.0
000186129 037__ $$aFZJ-2015-00217
000186129 041__ $$aEnglish
000186129 1001_ $$0P:(DE-Juel1)161444$$aLobe, Sandra$$b0$$eCorresponding Author$$ufzj
000186129 1112_ $$a14th International Meeting on Lithium Batteries$$cComo$$d2014-06-10 - 2014-06-14$$gIMLB 2014$$wItaly
000186129 245__ $$aPhysical Vapor Deposition of $Li_7La_3Zr_2O_{12}$ for all-solid-state thin film Li batteries
000186129 260__ $$c2014
000186129 3367_ $$0PUB:(DE-HGF)24$$2PUB:(DE-HGF)$$aPoster$$bposter$$mposter$$s1421149104_25609$$xOther
000186129 3367_ $$033$$2EndNote$$aConference Paper
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000186129 3367_ $$2BibTeX$$aINPROCEEDINGS
000186129 520__ $$aThe liquid solvents used as electrolytes in conventional Li ion batteries limit the operating temperature range and cause safety problems due to insufficient electrochemical stability. With purpose to avoid these disadvantages solid electrolytes, like lithium conducting oxides, sulfides or phosphates can be used. A promising oxide is the garnet-like Li7La3Zr2O12 that shows one of the highest total Li ion conductivities (about 10-4 S cm-1 at room temperature) in this class of materials. It also enables a wide application range due to its thermal stability and chemical resistance against possible electrode materials, e.g. metallic Lithium.In order to compensate the lower Li ion conductivity compared to liquid electrolytes current work is focused on thin electrolyte layers. Hence, main research aspect of the presented work is the thin film processing of Li7La3Zr2O12 with physical vapor deposition methods, especially RF magnetron sputtering. The growth conditions are optimized with regard to synthesize stoichiometric, crack-free and smooth thin films. Deposition is followed by thermal treatment of the as-grown samples to improve the crystallinity which should in turn improve the Li ion conductivity. The composition, structure and the electrochemical behavior of the resulting thin films are analyzed in order to deposit all-solid-state thin film batteries.
000186129 536__ $$0G:(DE-HGF)POF2-123$$a123 - Fuel Cells (POF2-123)$$cPOF2-123$$fPOF II$$x0
000186129 536__ $$0G:(DE-Juel1)HITEC-20170406$$aHITEC - Helmholtz Interdisciplinary Doctoral Training in Energy and Climate Research (HITEC) (HITEC-20170406)$$cHITEC-20170406$$x1
000186129 7001_ $$0P:(DE-Juel1)157613$$aStemme, Florian$$b1
000186129 7001_ $$0P:(DE-Juel1)156244$$aTsai, Chih-Long$$b2$$ufzj
000186129 7001_ $$0P:(DE-Juel1)145623$$aFinsterbusch, Martin$$b3
000186129 7001_ $$0P:(DE-Juel1)158085$$aDellen, Christian$$b4$$ufzj
000186129 7001_ $$0P:(DE-Juel1)129580$$aUhlenbruck, Sven$$b5$$ufzj
000186129 7001_ $$0P:(DE-Juel1)129594$$aBuchkremer, Hans Peter$$b6$$ufzj
000186129 773__ $$y2014
000186129 909CO $$ooai:juser.fz-juelich.de:186129$$pVDB
000186129 9101_ $$0I:(DE-588b)5008462-8$$6P:(DE-Juel1)161444$$aForschungszentrum Jülich GmbH$$b0$$kFZJ
000186129 9101_ $$0I:(DE-588b)5008462-8$$6P:(DE-Juel1)156244$$aForschungszentrum Jülich GmbH$$b2$$kFZJ
000186129 9101_ $$0I:(DE-Juel1)VS-II-20090406$$6P:(DE-Juel1)145623$$aWissenschaftlicher Geschäftsbereich II$$b3$$kVS-II
000186129 9101_ $$0I:(DE-588b)5008462-8$$6P:(DE-Juel1)158085$$aForschungszentrum Jülich GmbH$$b4$$kFZJ
000186129 9101_ $$0I:(DE-588b)5008462-8$$6P:(DE-Juel1)129580$$aForschungszentrum Jülich GmbH$$b5$$kFZJ
000186129 9101_ $$0I:(DE-588b)5008462-8$$6P:(DE-Juel1)129594$$aForschungszentrum Jülich GmbH$$b6$$kFZJ
000186129 9132_ $$0G:(DE-HGF)POF3-131$$1G:(DE-HGF)POF3-130$$2G:(DE-HGF)POF3-100$$aDE-HGF$$bForschungsbereich Energie$$lSpeicher und vernetzte Infrastrukturen$$vElectrochemical Storage$$x0
000186129 9131_ $$0G:(DE-HGF)POF2-123$$1G:(DE-HGF)POF2-120$$2G:(DE-HGF)POF2-100$$3G:(DE-HGF)POF2$$4G:(DE-HGF)POF$$aDE-HGF$$bEnergie$$lRationelle Energieumwandlung und -nutzung$$vFuel Cells$$x0
000186129 9141_ $$y2014
000186129 920__ $$lyes
000186129 9201_ $$0I:(DE-Juel1)IEK-1-20101013$$kIEK-1$$lWerkstoffsynthese und Herstellungsverfahren$$x0
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000186129 981__ $$aI:(DE-Juel1)IMD-2-20101013