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EP3703170
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EP About this file: EP3703170
| EP3703170 - SOLID ION CONDUCTOR HAVING A FLUORIDE GARNET-LIKE STRUCTURE [Right-click to bookmark this link] | Status | The application is deemed to be withdrawn Status updated on 09.07.2021 Database last updated on 18.03.2026 | |
| Former | The application has been published Status updated on 31.07.2020 | Most recent event Tooltip | 09.07.2021 | Application deemed to be withdrawn | published on 11.08.2021 [2021/32] | Applicant(s) | For all designated states Technische Universität Graz Rechbauerstraße 12 8010 Graz / AT | [2020/36] | Inventor(s) | 01 /
Rettenwander, Daniel Mariatroster Straße 209a Top 5 8044 Graz / AT | [2020/36] | Representative(s) | Patentanwaltskanzlei Matschnig & Forsthuber OG Biberstraße 22 Postfach 36 1010 Wien / AT | [2020/36] | Application number, filing date | 19159662.6 | 27.02.2019 | [2020/36] | Filing language | EN | Procedural language | EN | Publication | Type: | A1 Application with search report | No.: | EP3703170 | Date: | 02.09.2020 | Language: | EN | [2020/36] | Search report(s) | (Supplementary) European search report - dispatched on: | EP | 21.08.2019 | Classification | IPC: | H01M10/052, C01F5/00, C01F7/00, C01F11/00, C01G15/00, H01M10/0562, H01M10/42, C01G3/00, C01G9/00, C01G17/00 | [2020/36] | CPC: |
H01M10/0562 (EP);
C01F11/00 (EP);
C01F5/00 (EP);
C01F7/54 (EP);
C01G15/006 (EP);
H01M10/052 (EP);
H01M10/4235 (EP);
C01P2002/72 (EP);
H01M2300/008 (EP);
Y02E60/10 (EP)
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| Designated contracting states | AL, AT, BE, BG, CH, CY, CZ, DE, DK, EE, ES, FI, FR, GB, GR, HR, HU, IE, IS, IT, LI, LT, LU, LV, MC, MK, MT, NL, NO, PL, PT, RO, RS, SE, SI, SK, SM, TR [2020/36] | Extension states | BA | Not yet paid | ME | Not yet paid | Validation states | KH | Not yet paid | MA | Not yet paid | MD | Not yet paid | TN | Not yet paid | Title | German: | FESTER IONENLEITER MIT EINER FLUORIDGRANATÄHNLICHEN STRUKTUR | [2020/36] | English: | SOLID ION CONDUCTOR HAVING A FLUORIDE GARNET-LIKE STRUCTURE | [2020/36] | French: | CONDUCTEUR D'IONS SOLIDES DOTÉ D'UNE STRUCTURE SOUS FORME DE GRENAT DE FLUORURE | [2020/36] | Examination procedure | 03.03.2021 | Application deemed to be withdrawn, date of legal effect [2021/32] | 24.03.2021 | Despatch of communication that the application is deemed to be withdrawn, reason: examination fee not paid in time [2021/32] | Fees paid | Renewal fee | 16.02.2021 | Renewal fee patent year 03 |
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| Responsibility for the accuracy, completeness or quality of the data displayed under the link provided lies entirely with the Unified Patent Court. | Documents cited: | Search | [A] US2015372199 (MEYER JOERG et al.) | [A] S GELLER: "REFINEMENT OF THE CRYSTAL STRUCTURE OF CRYOLITHIONITE, {Na3}[AI2](Li3)F12", THE AMERICAN MINERALOGIST, vol. 56, no. 1-2, 1 January 1971 (1971-01-01), pages 18 - 23, XP055611893, ISSN: 1945-3027 | [A] TAKEDA Y ET AL: "High pressure form of fluoride garnets Na3M2Li3F12 (M=Al & Fe)", MATERIALS RESEARCH BULLETIN, ELSEVIER, KIDLINGTON, GB, vol. 12, no. 7, 1 July 1977 (1977-07-01), pages 689 - 692, XP024077218, ISSN: 0025-5408, [retrieved on 19770701], DOI: 10.1016/0025-5408(77)90127-1 DOI: http://dx.doi.org/10.1016/0025-5408(77)90127-1 | [A] ANDRZEJ GRZECHNIK ET AL: "The compressibility mechanism of Li3Na3In2F12 garnet", JOURNAL OF PHYSICS: CONDENSED MATTER, INSTITUTE OF PHYSICS PUBLISHING, BRISTOL, GB, vol. 18, no. 10, 15 March 2006 (2006-03-15), pages 2915 - 2924, XP020101715, ISSN: 0953-8984, DOI: 10.1088/0953-8984/18/10/014 DOI: http://dx.doi.org/10.1088/0953-8984/18/10/014 | by applicant | EP2176190 | US2015118571 | US2014193695 | ZHU ET AL.: "Origin of outstanding stability in the lithium solid electrolyte materials: Insights from thermodynamic analyses based on first-principles calculations", ACS APPL. MATER. INTER, vol. 7, 2015, pages 23685 - 23693 | R. D. SHANNON: "Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides", ACTA CRYSTALLOGR., vol. A32, 1976, pages 751 - 757 | ZEIER W.: "Structural limitations for optimizing garnet-type solid electrolytes: a perspective", DALTON TRANS., vol. 43, 2014, pages 16133 - 16138 | STRUZIK ET AL.: "A Simple and Fast Electrochemical C0 Sensor based on Li La Zr 0i for Environmental Monitoring", ADVANCED MATERIALS, vol. 40, no. 44, 2018, pages 1804098 | LIU ET AL.: "Achieving high capacity in bulk-type solid-state lithium ion battery based on Li La Zr Ta O electrolyte: Interfacial resistance", J. POWER SOURCES, vol. 324, 2016, pages 349 - 357, XP029624642, DOI: doi:10.1016/j.jpowsour.2016.05.111 DOI: http://dx.doi.org/10.1016/j.jpowsour.2016.05.111 | KAMAYA N. ET AL.: "A lithium superionic conductor", NAT. MATER., vol. 10, 2011, pages 682 - 686, XP055386603, DOI: doi:10.1038/nmat3066 DOI: http://dx.doi.org/10.1038/nmat3066 | O'CALLAGHAN ET AL.: "Switching on Fast Lithium Ion Conductivity in Garnets: The Structure and Transport Properties of Li Nd Te -xSbxOi", CHEM. MATER., vol. 20, 2008, pages 2360 | REDHAMMER, D. ET AL.: "A single crystal X-ray and powder neutron diffraction study on NASICON-type Lii+xAlxTi -x(P0 ) (0 < x < 0.5) crystals", IMPLICATIONS ON IONIC CONDUCTIVITY SOLID STATE SCI., vol. 60, 2016, pages 99 - 107 | SHANNON R.D.: "Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides", ACTA CRYSTALLOGR., vol. A32, 1976, pages 751 - 757 | ZHU ET AL.: "Origin of outstanding stability in the lithium solid electrolyte materials: Insights from thermodynamic analyses based on first-principles calculations", ACS APPL. MATER., vol. 7, 2015, pages 23685 - 23693 |