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<oembed><version>1.0</version><provider_name>IREC</provider_name><provider_url>https://www.irec.cat/ca</provider_url><author_name>IREC</author_name><author_url>https://www.irec.cat/ca</author_url><title>IREC | Stable olivine cathode materials with high specific energy for solid state batteries (OLiBat)</title><type>rich</type><width>600</width><height>338</height><html>&lt;blockquote class="wp-embedded-content" data-secret="2FpJwrD0TB"&gt;&lt;a href="https://www.irec.cat/ca/research/projects/olibat"&gt;Stable olivine cathode materials with high specific energy for solid state batteries (OLiBat)&lt;/a&gt;&lt;/blockquote&gt;&lt;iframe sandbox="allow-scripts" security="restricted" src="https://www.irec.cat/ca/research/projects/olibat/embed#?secret=2FpJwrD0TB" width="600" height="338" title="&#x201C;Stable olivine cathode materials with high specific energy for solid state batteries (OLiBat)&#x201D; &#x2014; IREC" data-secret="2FpJwrD0TB" frameborder="0" marginwidth="0" marginheight="0" scrolling="no" class="wp-embedded-content"&gt;&lt;/iframe&gt;&lt;script&gt;
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</html><description>Summary Development of advanced all-solid-state Li-ion battery (ASSB) cells require new materials to be developed together with more sustainable manufacturing techniques such as 3D printing. The cathode and its compatibility with the solid electrolyte are two important components that need to be improved in order to fabricate high gravimetric energy density (400+ Whkg-1) cells with&hellip;&nbsp;</description><thumbnail_url>https://www.irec.cat//wp-content/uploads/2022/10/micin-UEnextgeneration-prtr-aei.png</thumbnail_url></oembed>
