<?xml version="1.0" encoding="utf-8"?> <rss version="2.0"> <channel xmlns:dc="http://dublincore.org/documents/dcmi-namespace/" xmlns:media="http://search.yahoo.com/mrss/"> <title>HPQ Silicon Inc.</title> <link>https://www.globenewswire.com/rssfeed/organization/jXDzcMOXDmSA9-rS4VwBMQ==</link> <description>Contains the last 20 releases</description> <copyright>Copyright 2024, HPQ Silicon Inc.</copyright> <managingEditor>newsdesk@globenewswire.com (NewsDesk)</managingEditor> <lastBuildDate>Wed, 20 Nov 2024 12:30:00 GMT</lastBuildDate> <webMaster>webmaster@globenewswire.com (Webmaster)</webMaster> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/11/20/2984337/0/en/Novacium-s-METAGENE-On-Demand-Autonomous-Hydrolysis-Based-and-Pressurized-Hydrogen-Production-System-Reaches-Major-Milestone.html</guid> <link>https://www.globenewswire.com/news-release/2024/11/20/2984337/0/en/Novacium-s-METAGENE-On-Demand-Autonomous-Hydrolysis-Based-and-Pressurized-Hydrogen-Production-System-Reaches-Major-Milestone.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Novacium’s METAGENE™ On-Demand, Autonomous, Hydrolysis-Based and Pressurized Hydrogen Production System Reaches Major Milestone</title> <description><![CDATA[<p>MONTREAL, Nov. 20, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=HZMDgka3tZXcCCzhAi_9GBWlOF4dtxQBssWAn71THHssdehe7R2fI8ZOtw13OUvGT58jPqpo77xYEXdajGetiYGMPbPx4z9trqMUJj_7zFQ=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=QYPY22HoVmcyGtdNArerKyCbkuZhZiB_ofGa5vPLFcRZjtRu4wwkgikU_hXmawnJ4CkcCOsA5FT9cfb7eJX6TqNj40imBaO_v-GlP0lwyVhEwGM02tjy3OzMqlPbK0Ml" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a><u>, </u><a href="https://www.globenewswire.com/Tracker?data=ki2Ueg1rB2_cdGao0H3YndJfD1gxl-ld4FbQf4hUy16VvKopyPacC67AVzXgQvmZRJloF46PpvmY0ei5lMPaZy13LEKIPbOzJg5364qntKk=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=EU9sbHV5TYe3w1DEvupEJklp1Da0GybO42CIMeX756fYmS_WWfRnPTDI-j85CKRRAVRI0Msd9A6ZYLQf2_ajcbt_gI_wVuEGiwJuXmlmYrZJus-oFDfPIL3wiXDrg0xAbpKrA1CqlrtU7p7um6qPyLM2iNsePp34hEfwlqJoFAXW0IxlqsT-L7ueWebu8Tl9JlC_yCGTqlG7rHgkMZUIj_MdpDWJdp5Xc87q5TPEKfgHaRV1wloR6x10UEwyHBijXo5FD0kvvOlJmgQ9ZbOIRjEcQIl5nL2Ms_ahA3PzBY3NsvOTUQHIeBCyWX_x0-TrelqxwA3vyq8pLWF4ylSic9A93kXY0mb8dwLjZD46L8AsZPCmvHWhGBldEBl6YXZvWK-CtqyZbi0mAIgzzpiQCHiMxN31lGy8nggJV39OUolTnRLmPl6LtLNP0JwvHuodwntDrWVWdsYnF0pFgFJF2w==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials, is pleased to update shareholders on the latest hydrogen milestones achieved by its France-based affiliate, NOVACIUM SAS (Novacium).</p>]]></description> <pubDate>Wed, 20 Nov 2024 12:30 GMT</pubDate> <dc:identifier>2984337</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Wed, 20 Nov 2024 12:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/9c2b0708-5faf-48ed-a9f1-a192708ce07e"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/11/20/2984337/0/en/Novacium-s-METAGENE-On-Demand-Autonomous-Hydrolysis-Based-and-Pressurized-Hydrogen-Production-System-Reaches-Major-Milestone.html"> <img src="https://ml.globenewswire.com/Resource/Download/9c2b0708-5faf-48ed-a9f1-a192708ce07e" width="600" align="left" border="0" alt="Image 1 Lab-scale pilot plant reactor in action_FR-EG" title="Image 1 Lab-scale pilot plant reactor in action" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Product / Services Announcement</dc:subject> <dc:keyword>H2 Innovation</dc:keyword> <dc:keyword>Autonomous H2 production</dc:keyword> <dc:keyword>Production autonome de H2</dc:keyword> <dc:keyword>Innovation Hydrogène</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/11/20/2984337/0/fr/METAGENE-le-syst%C3%A8me-autonome-de-Novacium-permettant-la-production-d-hydrog%C3%A8ne-%C3%A0-haute-pression-%C3%A0-la-demande-via-une-r%C3%A9action-d-hydrolyse-franchit-une-%C3%A9tape-majeure.html</guid> <link>https://www.globenewswire.com/news-release/2024/11/20/2984337/0/fr/METAGENE-le-syst%C3%A8me-autonome-de-Novacium-permettant-la-production-d-hydrog%C3%A8ne-%C3%A0-haute-pression-%C3%A0-la-demande-via-une-r%C3%A9action-d-hydrolyse-franchit-une-%C3%A9tape-majeure.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>METAGENE™, le système autonome de Novacium permettant la production d’hydrogène à haute pression à la demande via une réaction d’hydrolyse, franchit une étape majeure</title> <description><![CDATA[<p>MONTRÉAL, 20 nov. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=HZMDgka3tZXcCCzhAi_9GBP_m1Ai21piXWhIDC7Vwhla_QjtxOEMS-4KN1VjAlgW_OtQCMwnf2o6N_vgDnYqkRluVViB15tRDIZOEszRfdI=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=QYPY22HoVmcyGtdNArerK2Yx7g1RM8QT2AFwyOROuIO5t4kkcvnIS_oNaryOxA_yWbO8tR3eGuK1Q7KLRTVuq3hIQjpdj9ceWT12-2sd60sy4oWq0NP6NiDzoDxvUKZyawzprbtwvmkRlg3YRjdphA==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>, <a href="https://www.globenewswire.com/Tracker?data=ki2Ueg1rB2_cdGao0H3YndJfD1gxl-ld4FbQf4hUy16VvKopyPacC67AVzXgQvmZRJloF46PpvmY0ei5lMPaZy13LEKIPbOzJg5364qntKk=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=EU9sbHV5TYe3w1DEvupEJklp1Da0GybO42CIMeX756fYmS_WWfRnPTDI-j85CKRRAVRI0Msd9A6ZYLQf2_ajcbt_gI_wVuEGiwJuXmlmYrZJus-oFDfPIL3wiXDrg0xAbpKrA1CqlrtU7p7um6qPyLM2iNsePp34hEfwlqJoFAXW0IxlqsT-L7ueWebu8Tl9JlC_yCGTqlG7rHgkMZUIj_MdpDWJdp5Xc87q5TPEKfgHaRV1wloR6x10UEwyHBijXo5FD0kvvOlJmgQ9ZbOIRjEcQIl5nL2Ms_ahA3PzBY3NsvOTUQHIeBCyWX_x0-TrelqxwA3vyq8pLWF4ylSic9A93kXY0mb8dwLjZD46L8AsZPCmvHWhGBldEBl6YXZvWK-CtqyZbi0mAIgzzpiQCHiMxN31lGy8nggJV39OUolTnRLmPl6LtLNP0JwvHuodwntDrWVWdsYnF0pFgFJF2w==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium a le plaisir d’informer les actionnaires sur les plus récentes avancées significatives réalisées par sa société affiliée française, NOVACIUM SAS (« Novacium »), dans le domaine de l’hydrogène.</p>]]></description> <pubDate>Wed, 20 Nov 2024 12:30 GMT</pubDate> <dc:identifier>2984337</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Wed, 20 Nov 2024 12:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/fe51ea59-73c3-49c8-9c02-a180f24d9164"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/11/20/2984337/0/fr/METAGENE-le-syst%C3%A8me-autonome-de-Novacium-permettant-la-production-d-hydrog%C3%A8ne-%C3%A0-haute-pression-%C3%A0-la-demande-via-une-r%C3%A9action-d-hydrolyse-franchit-une-%C3%A9tape-majeure.html"> <img src="https://ml.globenewswire.com/Resource/Download/fe51ea59-73c3-49c8-9c02-a180f24d9164" width="600" align="left" border="0" alt="Image 1) Le réacteur pilote à l’échelle laboratoire en action" title="Image 1) Le réacteur pilote à l’échelle laboratoire en action" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Product / Services Announcement</dc:subject> <dc:keyword>H2 Innovation</dc:keyword> <dc:keyword>Autonomous H2 production</dc:keyword> <dc:keyword>Production autonome de H2</dc:keyword> <dc:keyword>Innovation Hydrogène</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/11/12/2978890/0/en/HPQ-Silica-Polvere-Fumed-Silica-Reactor-Project-Update.html</guid> <link>https://www.globenewswire.com/news-release/2024/11/12/2978890/0/en/HPQ-Silica-Polvere-Fumed-Silica-Reactor-Project-Update.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>HPQ Silica Polvere Fumed Silica Reactor Project Update</title> <description><![CDATA[<p align="left">MONTREAL, Nov. 12, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=mbIZdUTg-gUr101uL2avP08g8n0sbIem8kOtu5vTo6IKw7-NDP0gPAdV4uE9JAQW0uu-lU2B1Of9LQxncLCr0-gdErGojFNLRwZBpKcdw-w=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=lTjBeT7F7Fi9MJDjLGBcWcQe_VihZ9UlCNxsNhZ_uy1zAiDQ9pmlV2E7H2PIL1gjmjZ9OI8A7RC-DzOVqcO-ZT-CIuhEnVulk1LW-bRrAH6oG59RdGiXJzel0W70Tqke" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a>, <a href="https://www.globenewswire.com/Tracker?data=UUcw4L6D35f9DRAi2tujUBtWftnJS9bLAEM-Sf-MP6alCfGy2Y91OgcEhMaNMvt3dfX1-RvvY0e08RNlYvgCSM2wZ-ESPGSNVudsJRdjBDg=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=LnFPDQ_3HqM4G2ZrLCx3MkBCM0gmE2l039ARQUVYGQqGfofYtS2aN7t8G87kVHzYzJ0fKNdHJLM9NBY8gn5XCpXrCZOaOrFFJcihO2-pMcTZLMX_XZFBcwjSXglf8NoaLmKRR4FpnSana_cp9U_H7Tf5Z0WPeQo952BC3XetBFMRwuQyvBwIy2Epzm-TgqVcHZT3Y_NN-HXhLahvut4t0XsEr5lIjmOcebTE3Zmf24AW_ntwbaSppzGC8-4MV05UANBmezv_uuYCvruDWZXhpBLT64AflGs-Y8O4Ccby4QOVENHblCm3g_HpxWf6TdHse_Ge28XDjQ6O2s09XnOVIrVF-txxzj81n1BU4okIal3LJzPOt4m71e_FgZwHNcLb8WnaMArLqBcwUphzfZdEry2VBoegnEES7X-zoVjrzz9XFv3E_46MSvxhS3O-0rs9sAdvbfCSq-wFzRFJv9Uytg==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials would like to update shareholders on recent developments from HPQ Silica Polvere Inc. (“HSPI”)<sup> [1]</sup> regarding the commercial validation of its proprietary Fumed Silica Reactor (FSR) process.</p>]]></description> <pubDate>Tue, 12 Nov 2024 12:00 GMT</pubDate> <dc:identifier>2978890</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Tue, 12 Nov 2024 12:00 GMT</dc:modified> <dc:subject>Management statements</dc:subject> <dc:keyword>Low Carbon Fumed silica</dc:keyword> <dc:keyword>Fumed Silica</dc:keyword> <dc:keyword>Silice Pyrogenee</dc:keyword> <dc:keyword>Silice Pyrogenee bas carbone</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/11/12/2978890/0/fr/Mise-%C3%A0-Jour-du-Projet-de-R%C3%A9acteur-de-Silice-Pyrog%C3%A9n%C3%A9e-de-HPQ-Silica-Polvere.html</guid> <link>https://www.globenewswire.com/news-release/2024/11/12/2978890/0/fr/Mise-%C3%A0-Jour-du-Projet-de-R%C3%A9acteur-de-Silice-Pyrog%C3%A9n%C3%A9e-de-HPQ-Silica-Polvere.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Mise à Jour du Projet de Réacteur de Silice Pyrogénée de HPQ Silica Polvere</title> <description><![CDATA[<p align="left">MONTRÉAL, 12 nov. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=mbIZdUTg-gUr101uL2avPwebxQ8GjYrz49XkGmxggq4a2NMdSpMCrMo-EHcyzRNTyJNdFqlxj4HdAEWN9ttt8B3gvqKBGGzDl0cNm8I65vo=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=lTjBeT7F7Fi9MJDjLGBcWTCOBOTQbGfWsoqJrEkukFAr3dJC4vUS09Em9qAIKZai5g7Hf-9UHAb9sOJatKhBk8-gLIYNbCpeVxhdID8tziT8NI371jOtGWxuJnOruUJW63_1bhlVTzjXyDfquLWnjQ==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>, <a href="https://www.globenewswire.com/Tracker?data=UUcw4L6D35f9DRAi2tujUBtWftnJS9bLAEM-Sf-MP6alCfGy2Y91OgcEhMaNMvt3dfX1-RvvY0e08RNlYvgCSM2wZ-ESPGSNVudsJRdjBDg=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=LnFPDQ_3HqM4G2ZrLCx3MkBCM0gmE2l039ARQUVYGQqGfofYtS2aN7t8G87kVHzYzJ0fKNdHJLM9NBY8gn5XCpXrCZOaOrFFJcihO2-pMcTZLMX_XZFBcwjSXglf8NoaLmKRR4FpnSana_cp9U_H7Tf5Z0WPeQo952BC3XetBFMRwuQyvBwIy2Epzm-TgqVcHZT3Y_NN-HXhLahvut4t0XsEr5lIjmOcebTE3Zmf24AW_ntwbaSppzGC8-4MV05UANBmezv_uuYCvruDWZXhpBLT64AflGs-Y8O4Ccby4QOVENHblCm3g_HpxWf6TdHse_Ge28XDjQ6O2s09XnOVIrVF-txxzj81n1BU4okIal3LJzPOt4m71e_FgZwHNcLb8WnaMArLqBcwUphzfZdEry2VBoegnEES7X-zoVjrzz9XFv3E_46MSvxhS3O-0rs9sAdvbfCSq-wFzRFJv9Uytg==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium souhaite informer les actionnaires des plus récents développements de HPQ Silica Polvere Inc. (« HSPI »)<sup>[1]</sup> concernant la commercialisation du procédé du Réacteur de Silice Pyrogénée (« RSP »).</p>]]></description> <pubDate>Tue, 12 Nov 2024 12:00 GMT</pubDate> <dc:identifier>2978890</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Tue, 12 Nov 2024 12:00 GMT</dc:modified> <dc:subject>Management statements</dc:subject> <dc:keyword>Low Carbon Fumed silica</dc:keyword> <dc:keyword>Fumed Silica</dc:keyword> <dc:keyword>Silice Pyrogenee</dc:keyword> <dc:keyword>Silice Pyrogenee bas carbone</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/11/07/2977037/0/en/HPQ-Announces-Appointment-of-new-Auditors.html</guid> <link>https://www.globenewswire.com/news-release/2024/11/07/2977037/0/en/HPQ-Announces-Appointment-of-new-Auditors.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>HPQ Announces Appointment of new Auditors</title> <description><![CDATA[<p align="left">MONTREAL, Nov. 07, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=PA_fV42M_TkPIiDHNitXeK_1xPknBvd59DmXUEAcf-zyP2J8jgw98iy602B2iuZ6K7rM42GKPPKrfIRKU2EeRgEEFO_X22BGsQWr8wBCurM=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=6pakqRCsueu7fyJ6IsvbM2c2zTA73In8DR70WwOlsF5iTM92nNE4Tv5Zt4oplSFXPL9bI4h5q3j-ue-tp685E5vmQiwxpnEbiEni7jbVGljY8WUXhb9DpdyZgm4SJtcj" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a>, <a href="https://www.globenewswire.com/Tracker?data=NlAeRhkC4inFKnMZaBwTU5KEIWUaWuTkzZohiZQMQZdjTRCltfEY-B4ks8oNkPDuxGOWnGEVyeXfxv9cUv8jxaBSFxXNtBzK9Eju9F_653M=" rel="nofollow" target="_blank" title=""><u>OTCQB: HPQFF</u></a>, <a href="https://www.globenewswire.com/Tracker?data=yIEFTYY_sHWlTl6g_OfK4TW4W0K-Q2mX3rPaWSxvysG2AsxCLqq23xs73CvSHaKBDoI0PTGkydi6B5D1pTN12q4emZHHmnPAuop2zRJEUPwiEcLHNK1V31rUXLybylY5_XgFcYQUyMSUOeR4z5ynkamOIzrmKj00Tp2hVfE8YDPUTnPJldd96dvyY2sZ038zq-S-o7Nv9C9JUDeF_4jspGKmi_QumpLURf_BHml766vSiocpd3GYRgWNqz2eqOX3ZiwkbiZTwdpY6_VCVj8JgnxlW0XRrnt0ejZb8yNP-Ga3beRSZHv91-2eAwXAnCWep_gMMwYSQAHVomUQyDJfcdT8oILp9TGvQAx4qiBA735dfpPUTwdlDEJ8goJOgzHF2n09PPfwkVByz1dT4vmE8AidAZHjUEGuMYfwgrt7KpFWK5iLk39-DPmoKDxfA-dGCP7PpkeDc6NxkFccc8fKBg==" rel="nofollow" target="_blank" title=""><u>FRA: O08</u></a>), a technology company specializing in the green engineering of silica and silicon-based materials is pleased to inform shareholders that, subsequently to its June 26<sup>th</sup>, 2024 press release regarding the reception of a notice of termination from KPMG S.E.N.C.R.L. (S.R.L.), (the Former Auditor), regarding the cessation of their duties and the non-renewal of their mandate, it has appointed Forvis Mazars S.E.N.C.R.L. (S.R.L.), as independent auditor of the Company, effective as of October 25, 2024 (the “Successor Auditor”).</p>]]></description> <pubDate>Thu, 07 Nov 2024 19:12 GMT</pubDate> <dc:identifier>2977037</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Thu, 07 Nov 2024 19:12 GMT</dc:modified> <dc:subject>Regulatory information</dc:subject> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/10/31/2972508/0/en/500-Cycles-Major-Milestone-Novacium-s-Silicon-Based-Anode-Batteries-Demonstrate-High-Capacity-and-High-Durability.html</guid> <link>https://www.globenewswire.com/news-release/2024/10/31/2972508/0/en/500-Cycles-Major-Milestone-Novacium-s-Silicon-Based-Anode-Batteries-Demonstrate-High-Capacity-and-High-Durability.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>500 Cycles Major Milestone: Novacium’s Silicon-Based Anode Batteries Demonstrate High Capacity and High Durability</title> <description><![CDATA[<p>MONTREAL, Oct. 31, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=X6EGtssXeH6rTD9nBLke_16J1fPALOp0fLrBhHr-uKlSmd5G2vcfq_K5elTi1L_jfFFch5uG6jeMPHCj--WjpiqAtEOGfLfFRpYr72PIhuU=" rel="nofollow" target="_blank" title="HPQ Silicon Inc.">HPQ Silicon Inc.</a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=lGu_ZeC6pAjJy1RuN-0QEv8x1QnazjnO0T7hzwvGSLOfyEg_3Z3mwQifsbU_xLoxsoIzlj05Y5FHamReUtgMfaNy0V7eN-XfnGyjVwDrYtYdukdZI7PjcbBkfAX7CZYr" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a><u>, </u><a href="https://www.globenewswire.com/Tracker?data=SYMQhyAWzy2bnW73q4iHXpJJYdxJe-1f3noi7Hj3Aaf_CmwfcEuSHFxGTxkQnUdSI9wStFMgbc7gGI8GX0Zx0s2m3-y-tOsPrhnXlBlksco=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=vgprI0kXIbNl_56kkhy-sN2a_MmHOGAFLYMczvMid36PoLgfv1NMnGp3dTCICKNokvJLVSZN0W2AFd9nRFB5Q2POYqwIybubh0pVwmLAUlhQPZHIboz6BnaqsoKXO4fvAP1Ch2empXncyVClIHvLykXRlR3r4ndNSD1Ag-4-XEBlAbf9gob3J9yzw_u-p-sUsk6fTYnqTnuHajhAndez-GgU1YetS2Aqy_Uif5e7Ey2adq9iJSn73MrhAFMtFcrfgeYyPk3cKsgbvL_Vzte4qwaQCnOFkCDdwQyfegjDK4cvbuvIe-AdaT7BbSKyEO7e-KfHB4VEmfqW-M3OVO8gB2iLtecbVbFXx3sHX7OJLU4hQ0yaLqYkmwtAibNAZiSrfQrZuP8OeeDF-iqtzMI_iGSr73hBYDjIPAajHnPP-K3kv-vRX0r8ATcNq3gw4cJZDy7eqy8IHLcpYQbrIC6kew==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials, is pleased to update shareholders on the latest battery milestones achieved by its France-based affiliate, NOVACIUM SAS (Novacium).</p>]]></description> <pubDate>Thu, 31 Oct 2024 11:30 GMT</pubDate> <dc:identifier>2972508</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Thu, 31 Oct 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/6b2c83bb-f9f2-47b8-b841-35baab2cc1d8"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/10/31/2972508/0/en/500-Cycles-Major-Milestone-Novacium-s-Silicon-Based-Anode-Batteries-Demonstrate-High-Capacity-and-High-Durability.html"> <img src="https://ml.globenewswire.com/Resource/Download/6b2c83bb-f9f2-47b8-b841-35baab2cc1d8" width="600" align="left" border="0" alt="Image 1 (Graph 1 A and 1B) at 500 cycles" title="Graph 1A) Average capacity, in milliampere-hours (mAh), of GEN1 (Orange) & GEN2 (Green) batteries over 200 cycles test, and the average capacity, in mAh, of the 100% graphite & GEN3 batteries (the Blue & Yellow lines) over 500 cycles [1].Graph 1B) The green and orange lines show the relative capacity of the GEN1 & GEN2 batteries over 200 cycles, while the blue and yellow lines show the relative capacity of the 100% graphite batteries & the GEN 3 batteries over 500 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/5fa670a9-71aa-4657-900f-18cb4917d7cf"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/10/31/2972508/0/en/500-Cycles-Major-Milestone-Novacium-s-Silicon-Based-Anode-Batteries-Demonstrate-High-Capacity-and-High-Durability.html"> <img src="https://ml.globenewswire.com/Resource/Download/5fa670a9-71aa-4657-900f-18cb4917d7cf" width="600" align="left" border="0" alt="Image 2 Real-World Solutions for Enhanced Performance" title="Image 2) Real life example of potential application of our 18650 batteries" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>Silicon anode materials</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/10/31/2972508/0/fr/Jalons-Importants-%C3%A0-500-Cycles-les-Batteries-%C3%A0-Base-de-Silicium-Novacium-D%C3%A9montrent-une-grande-Capacit%C3%A9-et-Durabilit%C3%A9.html</guid> <link>https://www.globenewswire.com/news-release/2024/10/31/2972508/0/fr/Jalons-Importants-%C3%A0-500-Cycles-les-Batteries-%C3%A0-Base-de-Silicium-Novacium-D%C3%A9montrent-une-grande-Capacit%C3%A9-et-Durabilit%C3%A9.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Jalons Importants à 500 Cycles : les Batteries à Base de Silicium Novacium Démontrent une grande Capacité et Durabilité</title> <description><![CDATA[<p>MONTRÉAL, 31 oct. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=X6EGtssXeH6rTD9nBLke_8fAKY1zIo9Z3Ryc6X2Jbf6J7BbDogeuCYeUK35I8AjdwvtfvAXzMLLin4ubfeGDSjcC7XT9ilcop1nyfHB3wWA=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=lGu_ZeC6pAjJy1RuN-0QElwqWdSkRfPuWjTueckwCtebCsVVKGvvqAFCtAPS3GNTLuqK7XLc_ErfOlgNCWIlu0F78ry_wmG_oMyYd1eIvXIjzh_q63aLGhgbPf4oBJH5QtWF164sxGw3O47v2i55VA==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>, <a href="https://www.globenewswire.com/Tracker?data=SYMQhyAWzy2bnW73q4iHXpJJYdxJe-1f3noi7Hj3Aaf_CmwfcEuSHFxGTxkQnUdSI9wStFMgbc7gGI8GX0Zx0s2m3-y-tOsPrhnXlBlksco=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=vgprI0kXIbNl_56kkhy-sN2a_MmHOGAFLYMczvMid36PoLgfv1NMnGp3dTCICKNokvJLVSZN0W2AFd9nRFB5Q2POYqwIybubh0pVwmLAUlhQPZHIboz6BnaqsoKXO4fvAP1Ch2empXncyVClIHvLykXRlR3r4ndNSD1Ag-4-XEBlAbf9gob3J9yzw_u-p-sUsk6fTYnqTnuHajhAndez-GgU1YetS2Aqy_Uif5e7Ey2adq9iJSn73MrhAFMtFcrfgeYyPk3cKsgbvL_Vzte4qwaQCnOFkCDdwQyfegjDK4cvbuvIe-AdaT7BbSKyEO7e-KfHB4VEmfqW-M3OVO8gB2iLtecbVbFXx3sHX7OJLU4hQ0yaLqYkmwtAibNAZiSrfQrZuP8OeeDF-iqtzMI_iGSr73hBYDjIPAajHnPP-K3kv-vRX0r8ATcNq3gw4cJZDy7eqy8IHLcpYQbrIC6kew==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium a le plaisir d’informer les actionnaires sur les plus récentes avancées significatives réalisées par sa société affiliée française, NOVACIUM SAS (« Novacium »), dans le domaine des batteries.</p>]]></description> <pubDate>Thu, 31 Oct 2024 11:30 GMT</pubDate> <dc:identifier>2972508</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Thu, 31 Oct 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/94deb02e-49d2-4d00-80e6-48eb6b349a55"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/10/31/2972508/0/fr/Jalons-Importants-%C3%A0-500-Cycles-les-Batteries-%C3%A0-Base-de-Silicium-Novacium-D%C3%A9montrent-une-grande-Capacit%C3%A9-et-Durabilit%C3%A9.html"> <img src="https://ml.globenewswire.com/Resource/Download/94deb02e-49d2-4d00-80e6-48eb6b349a55" width="600" align="left" border="0" alt="Image 1 (Graph 1 A et 1B) à 500 cycles" title="Graph 1A) Capacité moyenne, en milliampères-heures (mAh), des batteries GEN1 (orange) & GEN2 (vert) sur 200 cycles, et la capacité moyenne, en mAh, des batteries 100% graphite et GEN 3 (lignes bleues et vertes) sur 500 cycles [1]. Graph 1B) Les lignes orange et verte montrent la capacité relative des batteries GEN 1 & GEN2 sur 200 cycles alors que les lignes bleue et jaune montrent la capacité relative des batteries 100 % graphite & GEN3 sur 500 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/d9e43666-3d8e-41cf-8af2-7b4db403b10e"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/10/31/2972508/0/fr/Jalons-Importants-%C3%A0-500-Cycles-les-Batteries-%C3%A0-Base-de-Silicium-Novacium-D%C3%A9montrent-une-grande-Capacit%C3%A9-et-Durabilit%C3%A9.html"> <img src="https://ml.globenewswire.com/Resource/Download/d9e43666-3d8e-41cf-8af2-7b4db403b10e" width="600" align="left" border="0" alt=" Image 2 Des solutions concrètes pour des performances ameliorées" title="Image 2) Exemple réel d’application potentielle de nos batteries 18650" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>Silicon anode materials</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/10/22/2966831/0/en/HPQ-Files-Provisional-Patent-Application-for-High-Throughput-Silicon-Based-Anode-Material-Manufacturing.html</guid> <link>https://www.globenewswire.com/news-release/2024/10/22/2966831/0/en/HPQ-Files-Provisional-Patent-Application-for-High-Throughput-Silicon-Based-Anode-Material-Manufacturing.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>HPQ Files Provisional Patent Application for High Throughput Silicon-Based Anode Material Manufacturing</title> <description><![CDATA[<p>MONTREAL, Oct. 22, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=h8k3BuGBeptPeOikPos8dJ7tvjCm1DT4htjt3fmf2QOxTzMZ_xpkPJrDQ8RCxdgVmVPy4F_0LKJNUK4-Wd82KCvzYkF-x3n_F_AzkltpVSw=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=3CTqc7zB_LR08eZnPNRw6dInsD3fgKXbF9x38YWwNGBS95Y6WxevJ_7_G3AQ2YPEIPLfRAZVtqmcGLX7XkZPyBr1M7lg_5dMyHOzQGXXwsA-jRVbXV0plDmwIHPLMvRU" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a>, <a href="https://www.globenewswire.com/Tracker?data=OlFiHr7_5LoT0l7n0DDPkEDgg9nRQBn8RsVhAlTtWwuYUDyOGh2UencNTY4P2DtlKjtkjh328mKTo20nckloxdzMldveEYCb-hdURZN9jR8=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=0MkvH-3WrWiqfs89xVNcrE1BwUy0t1e2jldK-aT1k3Jm9QQAAUsHOaRitiT2moLeverMYPlAdk317hOPReQEpstkiQezhY-_Ra2ebOiakF6gx26j5mColn8gVaQhq-UMuw2Im_hHP8OGb-kd2FQGXOzWwdQ3G8_xQ7E57LyUNERklt2SEP3yXUsmec0yBF9J-BvQhr4cZa2gMrBpJunCg1oUboin6kQqNsjt_cZmtjNu6rLJ0ezf7mA4hu3uOZabaILSC4YtGjTw_hJOlUz01dEIKrIkxrFMkGU5I8j3Val4TLZx70tCjRI-JYJ2kIVFvp72s8j-Q0Mg3J0YGNRAcYPv5RGGCrAdjxG7eZBUfOYev6zvhAoYLBbNdxGjcqiOcwIKjV1NI3DsXGJJJ-SSVESbUJZy-DgA52nt1M_T0GAapgDzUiWouzwLXIplJ57xOdLhK-3c0bCFnBE3L55q1w==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in the green engineering of silica and silicon-based materials is pleased to inform shareholders of a patent filing related to its Silicon-based anode material initiatives.</p>]]></description> <pubDate>Tue, 22 Oct 2024 11:30 GMT</pubDate> <dc:identifier>2966831</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Tue, 22 Oct 2024 11:30 GMT</dc:modified> <dc:subject>Patents</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>high efficiency batteries</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/10/22/2966831/0/fr/HPQ-D%C3%A9pose-une-Demande-de-Brevet-Provisoire-pour-la-Fabrication-%C3%A0-Haut-D%C3%A9bit-de-Mat%C3%A9riaux-d-Anode-%C3%A0-Base-De-Silicium.html</guid> <link>https://www.globenewswire.com/news-release/2024/10/22/2966831/0/fr/HPQ-D%C3%A9pose-une-Demande-de-Brevet-Provisoire-pour-la-Fabrication-%C3%A0-Haut-D%C3%A9bit-de-Mat%C3%A9riaux-d-Anode-%C3%A0-Base-De-Silicium.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>HPQ Dépose une Demande de Brevet Provisoire pour la Fabrication à Haut Débit de Matériaux d’Anode à Base De Silicium</title> <description><![CDATA[<p>MONTRÉAL, 22 oct. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=h8k3BuGBeptPeOikPos8dKEA7N0koNBeL-ipm0dXIBTuVi9KBkY0pwPc_ulYS0osHfnjlu1vPb3tF1DjWdK9woBoo1ms0XOV17MuoyEd-rQ=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=3CTqc7zB_LR08eZnPNRw6VTTZ0IooiJl6TFwbnhN4cVCXepPA6ciEBDNkULrvbRHw2-N6-Vk9NG9I3MaWk5SFn93oghkzNZL5QYC5G5RVQdYEwT0AYWMLwzsYWCq61D5Qpc7wq0RlNWWlI0IhdNaZg==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>, <a href="https://www.globenewswire.com/Tracker?data=OlFiHr7_5LoT0l7n0DDPkEDgg9nRQBn8RsVhAlTtWwuYUDyOGh2UencNTY4P2DtlKjtkjh328mKTo20nckloxdzMldveEYCb-hdURZN9jR8=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=0MkvH-3WrWiqfs89xVNcrE1BwUy0t1e2jldK-aT1k3Jm9QQAAUsHOaRitiT2moLeverMYPlAdk317hOPReQEpstkiQezhY-_Ra2ebOiakF6gx26j5mColn8gVaQhq-UMuw2Im_hHP8OGb-kd2FQGXOzWwdQ3G8_xQ7E57LyUNERklt2SEP3yXUsmec0yBF9J-BvQhr4cZa2gMrBpJunCg1oUboin6kQqNsjt_cZmtjNu6rLJ0ezf7mA4hu3uOZabaILSC4YtGjTw_hJOlUz01dEIKrIkxrFMkGU5I8j3Val4TLZx70tCjRI-JYJ2kIVFvp72s8j-Q0Mg3J0YGNRAcYPv5RGGCrAdjxG7eZBUfOYev6zvhAoYLBbNdxGjcqiOcwIKjV1NI3DsXGJJJ-SSVESbUJZy-DgA52nt1M_T0GAapgDzUiWouzwLXIplJ57xOdLhK-3c0bCFnBE3L55q1w==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium est heureuse d’informer ses actionnaires du dépôt d’un brevet lié à ses initiatives en matière de matériaux d’anode à base de silicium.</p>]]></description> <pubDate>Tue, 22 Oct 2024 11:30 GMT</pubDate> <dc:identifier>2966831</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Tue, 22 Oct 2024 11:30 GMT</dc:modified> <dc:subject>Patents</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>high efficiency batteries</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/10/08/2959682/0/en/Silicon-Based-Anode-Batteries-Achieve-3-606-mAh-with-93-Capacity-Retention-after-300-Cycles.html</guid> <link>https://www.globenewswire.com/news-release/2024/10/08/2959682/0/en/Silicon-Based-Anode-Batteries-Achieve-3-606-mAh-with-93-Capacity-Retention-after-300-Cycles.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Silicon-Based Anode Batteries Achieve 3,606 mAh with 93% Capacity Retention after 300 Cycles</title> <description><![CDATA[<p>MONTREAL, Oct. 08, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=uUXJPDTLR_mza7Q_KBG6wxZvg9ufQbqg_RpAbN6TiJe1ey0ggq_6DzZq9-4zUXWQlpBbE5R0Evy3fcztaB41q5qzGUYQrFuhl4a51tfORog=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=yGbqq1IgAa_qgV7N-PhK5YmQxV5hZs5JNzj0bmV1IKQ8NryltnnHwVDrbr-DBcq_mC10EoIuN5kaX3OyRl7aN_VMmcxNe12hk0THjfN-XHZNpw9Ieb24bxplbZqPYZp3" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a><u>, </u><a href="https://www.globenewswire.com/Tracker?data=nxTOon-BVcw1khkM_OFS8m584PK4k2nPjQ95UthYuGbzr6snbUbc6PkpNFjCca9QSEuhaSzo7X9ahyF6Yzy28wLCp1XWL6O7NlT1se1t7Lg=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=2-hjual8VGvAQRFaBYIVuE75eghSvODIv9mRLGm5MPiN_NisupLs7ANxmzVm38O8SPzInsqP8QYj2uFNSH39Vi1IXyg34K8uV8dD5liaHwJ-5Lr5ZCZ4RYxUzz0MUHPEpLAESQhb2n5P2zGGSFCtaqU8MrfV7ISFEdR1mwwmKCXioMQYH1Cy8rpDGMlPjioXKr9cwrCiUHvd9Djr6KScaSszT0YswmKSx52Ac_NNUmtsXd-CinSVrdyuvO29BhQca3XSnXyDyNLIHmB-VJvW6O6AB9_p9Lcn3zZq99j208k6AUftj2Z2hGLVhCDx-6lvf6cG2gjWAdks9ntH2wQP_u-UI6LTaSSpocnl-UN8Xu7P3iFWvGqBzf38fIIfBKY6FMfsvuqL1GF1oMy4XUdbsCh1w6jEzcjWTR3oPB71Y8hFo6-YICpEqEX6xTQPbg-90XwVkeCxv29pvlI9ts5-lw==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials, is pleased to update shareholders on the latest battery milestones achieved by its France-based affiliate, NOVACIUM SAS ("Novacium").</p>]]></description> <pubDate>Tue, 08 Oct 2024 12:18 GMT</pubDate> <dc:identifier>2959682</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Tue, 08 Oct 2024 12:19 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/ce2f2e81-8423-4175-b696-a5530f640b69"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/10/08/2959682/0/en/Silicon-Based-Anode-Batteries-Achieve-3-606-mAh-with-93-Capacity-Retention-after-300-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/ce2f2e81-8423-4175-b696-a5530f640b69" width="600" align="left" border="0" alt="Image 1 (Graph 1 A & 1B) at 300 cycles_Whithout_legend" title="Graph 1A) Average capacity, in milliampere-hours (mAh), of GEN1 (Orange) & GEN2 (Green) batteries over 200 cycles test, and the average capacity, in mAh, of the 100% graphite & GEN3 batteries (the Blue & Yellow lines) over 300 cycles [1].Graph 1B) The green and orange lines show the relative capacity of the GEN1 & GEN2 batteries over 200 cycles, while the blue and yellow lines show the relative capacity of the 100% graphite batteries & the GEN 3 batteries over 300 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Management statements</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>300 cycles results</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Silicon anode materials</dc:keyword> <dc:keyword>Silicon based anode</dc:keyword> <dc:keyword>Materiaux d'anode silicium</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/10/08/2959682/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-600-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-300-Cycles.html</guid> <link>https://www.globenewswire.com/news-release/2024/10/08/2959682/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-600-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-300-Cycles.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Les Batteries à Anodes à Base de Silicium Atteignent 3 600 mAh avec une Rétention de Capacité de 96 % après 300 Cycles</title> <description><![CDATA[<p>MONTRÉAL, 08 oct. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=uUXJPDTLR_mza7Q_KBG6w14iXI1S11aRMIa8RL-vtOl9D4YgFi2xqtv_klgq1yI4JLmqY5-jnehYvvpeE7YhicvQbI1CJ3Czf75Di4Qh_Kk=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=yGbqq1IgAa_qgV7N-PhK5cbp1NGhpBP44IZ4vqjSKKRwxNfVbonWvcGbPx7SXx5ys835-SwxDuRmc3uOjJSJlSlxjRvrNN52epAhqCu157V-nz1L9P6-jW4HDO_IXqMOaf_YOOdKtDEvtIQy_jTa_w==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>, <a href="https://www.globenewswire.com/Tracker?data=nxTOon-BVcw1khkM_OFS8m584PK4k2nPjQ95UthYuGbzr6snbUbc6PkpNFjCca9QSEuhaSzo7X9ahyF6Yzy28wLCp1XWL6O7NlT1se1t7Lg=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=2-hjual8VGvAQRFaBYIVuE75eghSvODIv9mRLGm5MPiN_NisupLs7ANxmzVm38O8SPzInsqP8QYj2uFNSH39Vi1IXyg34K8uV8dD5liaHwK4v1YLttoFqnvGIkaluXeF" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium a le plaisir d’informer les actionnaires sur les plus récentes avancées significatives réalisées par sa société affiliée française, NOVACIUM SAS (« Novacium »), dans le domaine des batteries.</p>]]></description> <pubDate>Tue, 08 Oct 2024 12:18 GMT</pubDate> <dc:identifier>2959682</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Tue, 08 Oct 2024 12:19 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/d7fa68c6-52cc-4fd0-9a10-7eee04ccf15f"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/10/08/2959682/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-600-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-300-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/d7fa68c6-52cc-4fd0-9a10-7eee04ccf15f" width="600" align="left" border="0" alt="Image 1_FR_(Graph 1 A et 1B) a 300 cycles_Sans_legende" title="Graph 1A) Capacité moyenne, en milliampères-heures (mAh), des batteries GEN1 (orange) & GEN2 (vert) sur 200 cycles, et la capacité moyenne, en mAh, des batteries 100% graphite et GEN 3 (lignes bleues et vertes) sur 300 cycles [1]. Graph 1B) Les lignes orange et verte montrent la capacité relative des batteries GEN 1 & GEN2 sur 200 cycles alors que les lignes bleue et jaune montrent la capacité relative des batteries 100 % graphite & GEN3 sur 300 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Management statements</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>300 cycles results</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Silicon anode materials</dc:keyword> <dc:keyword>Silicon based anode</dc:keyword> <dc:keyword>Materiaux d'anode silicium</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/27/2954432/0/en/HPQ-Silica-Polvere-Fumed-Silica-Reactor-Commissioning-Completed.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/27/2954432/0/en/HPQ-Silica-Polvere-Fumed-Silica-Reactor-Commissioning-Completed.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>HPQ Silica Polvere Fumed Silica Reactor: Commissioning Completed</title> <description><![CDATA[Pilot plant ready to start producing materials <pre>Pilot plant ready to start producing materials</pre>]]></description> <pubDate>Fri, 27 Sep 2024 11:30 GMT</pubDate> <dc:identifier>2954432</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Fri, 27 Sep 2024 11:30 GMT</dc:modified> <dc:subject>Management statements</dc:subject> <dc:keyword>Low Carbon Fumed silica</dc:keyword> <dc:keyword>Silice Pyrogenee bas carbone</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/27/2954432/0/fr/R%C3%A9acteur-de-Silice-Pyrog%C3%A9n%C3%A9e-de-HPQ-Silica-Polvere-Mise-en-Service-Termin%C3%A9e.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/27/2954432/0/fr/R%C3%A9acteur-de-Silice-Pyrog%C3%A9n%C3%A9e-de-HPQ-Silica-Polvere-Mise-en-Service-Termin%C3%A9e.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Réacteur de Silice Pyrogénée de HPQ Silica Polvere: Mise en Service Terminée</title> <description><![CDATA[L'usine pilote est prête à débuter la production de matériaux <pre>L'usine pilote est prête à débuter la production de matériaux</pre>]]></description> <pubDate>Fri, 27 Sep 2024 11:30 GMT</pubDate> <dc:identifier>2954432</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Fri, 27 Sep 2024 11:30 GMT</dc:modified> <dc:subject>Management statements</dc:subject> <dc:keyword>Low Carbon Fumed silica</dc:keyword> <dc:keyword>Silice Pyrogenee bas carbone</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/18/2948111/0/en/Silicon-Based-Anode-Batteries-Achieve-3-734-mAh-with-96-Capacity-Retention-after-200-Cycles-Surpassing-Commercial-Alternatives-by-66.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/18/2948111/0/en/Silicon-Based-Anode-Batteries-Achieve-3-734-mAh-with-96-Capacity-Retention-after-200-Cycles-Surpassing-Commercial-Alternatives-by-66.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Silicon-Based Anode Batteries Achieve 3,734 mAh with 96% Capacity Retention after 200 Cycles, Surpassing Commercial Alternatives by 66%</title> <description><![CDATA[<p>MONTREAL, Sept. 18, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=Cm-50HUhPS72d7MmwcKU8r1MjljfYLttBR24ei6S1EwsI4XAY63U4AQ4jdhbqm8WK0rXW9Svn9nHao-A1s4j4nfAE1rHSEIEDPjxNej9M8Q=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=NmsvDJl-z8fqo0pLrlkNytDxTfqXuSmqXArmdub2RBNDWjPX0EZ6fSI-v4z1l1TMVmNol5P5V1CRL1NwhTKfjLoBBmWEW5TV2RE3Lv0_EKwJnF8hEHBAcAWNOF_ciyq2" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a><u>, </u><a href="https://www.globenewswire.com/Tracker?data=F7RMp4fJcdhPlXpzL4Ew-x2n0D3hfAlKbl6Mps1P-NLfbVN593HKiKAuCqCVJ4K3aAovw680Kgn7W_RkA7wXrZcKI9lDEWsTayryj3BIgz0=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=8CqEZa3-LRwlvGJgdF2KkxPBKNQXZR8SgftA5hU35JutAYAq7UhCbDtN9OifWsdRSVz3E24srCYJBSgNYvaBG4F0wmIeJuyKlS5432i52s-Wbr181t7ZAzp4eM9bG1u_QqaGpKt9RImp3chsZhXlZynGIHFeeyux16iVglN8fgjJ9JQVBpUVaNobpDVsN4JdhIJa6TZfy5K57kY9XetJiqkaNEgJmWH6e7sL-Coi_kNtkBZ0brwNGribC3WQ_Fjdz12c5Nwu5YjmQxPqMvTF_DU0YfQCL_oJuHqr7OXa0xWbePr0WTPPpxP-a-Lh14ZdvigYmSwK48hYCMUNStiDqdiAJa00SxgNE-G3tfr_p1XLsaSl2LM8dMuK0UaL3k04kI_El2WEoiacuThV3uPAagpjmZnGHwvvlWpsvIdYD83s2rsviEyWSiq5PVsi6DH9Ab2PKwKs-tNDzu1RK4RXKg==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials, is pleased to update shareholders on the latest battery milestones achieved by its France-based affiliate, NOVACIUM SAS (“Novacium”).</p>]]></description> <pubDate>Wed, 18 Sep 2024 11:30 GMT</pubDate> <dc:identifier>2948111</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Wed, 18 Sep 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/0bd7cccb-951e-46a9-b519-c3e226a8d6f0"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/18/2948111/0/en/Silicon-Based-Anode-Batteries-Achieve-3-734-mAh-with-96-Capacity-Retention-after-200-Cycles-Surpassing-Commercial-Alternatives-by-66.html"> <img src="https://ml.globenewswire.com/Resource/Download/0bd7cccb-951e-46a9-b519-c3e226a8d6f0" width="600" align="left" border="0" alt="Graph 1 Battery Capacity 200 cycles" title="Graph 1) Average capacity, in milliampere-hours (mAh), of 100% graphite, GEN1, GEN2 & GEN3 batteries over 200 cycle testing [1] (the blue, orange, green and yellow lines). " /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/fbb14fcb-12d7-4775-baff-d58825745c82"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/18/2948111/0/en/Silicon-Based-Anode-Batteries-Achieve-3-734-mAh-with-96-Capacity-Retention-after-200-Cycles-Surpassing-Commercial-Alternatives-by-66.html"> <img src="https://ml.globenewswire.com/Resource/Download/fbb14fcb-12d7-4775-baff-d58825745c82" width="600" align="left" border="0" alt="Graph 2 Relative Battery Capacity 200 cycles" title="Graph 2) The blue line shows the relative capacity of 100% graphite batteries, the orange line the relative capacity of GEN1 batteries, the green line the relative capacity of GEN 2 batteries and the yellow line shows the relative capacity of GEN 3 batteries over 200 cycles [1]" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>200 cycles</dc:keyword> <dc:keyword>silicon based batteries</dc:keyword> <dc:keyword>Silicon based anode</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/18/2948111/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-734-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-200-Cycles-Surpassant-de-66-les-Alternatives-Commerciales.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/18/2948111/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-734-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-200-Cycles-Surpassant-de-66-les-Alternatives-Commerciales.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Les Batteries à Anodes à Base de Silicium Atteignent 3 734 mAh avec une Rétention de Capacité de 96 % après 200 Cycles, Surpassant de 66 % les Alternatives Commerciales</title> <description><![CDATA[<p>MONTRÉAL, 18 sept. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=Cm-50HUhPS72d7MmwcKU8qaeDGKUoLIJSoatx5JTJi1E2Hgm7QdsKKUqLaaio5Z6l5j-49m4T7ISQkVCcsj0C5BlVbfmQGHJ_ttzJSGoSGE=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=NmsvDJl-z8fqo0pLrlkNygwMznkHE5BaSFoMOCfZRocYv3VvUTJHbsDo-p8HoeP6iMEmY4MwSfkX-fBvIwtVBb2zXF2l2rCJzSVOU8umivFNO1H39iTW5E0tppDfFX2CDUkhV5A_mc7RXk81uJl8Bw==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>) (<a href="https://www.globenewswire.com/Tracker?data=F7RMp4fJcdhPlXpzL4Ew-x2n0D3hfAlKbl6Mps1P-NLfbVN593HKiKAuCqCVJ4K3aAovw680Kgn7W_RkA7wXrZcKI9lDEWsTayryj3BIgz0=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>) (<a href="https://www.globenewswire.com/Tracker?data=8CqEZa3-LRwlvGJgdF2KkxPBKNQXZR8SgftA5hU35JutAYAq7UhCbDtN9OifWsdRSVz3E24srCYJBSgNYvaBG4F0wmIeJuyKlS5432i52s-Wbr181t7ZAzp4eM9bG1u_QqaGpKt9RImp3chsZhXlZynGIHFeeyux16iVglN8fgjJ9JQVBpUVaNobpDVsN4JdhIJa6TZfy5K57kY9XetJiqkaNEgJmWH6e7sL-Coi_kNtkBZ0brwNGribC3WQ_Fjdz12c5Nwu5YjmQxPqMvTF_DU0YfQCL_oJuHqr7OXa0xWbePr0WTPPpxP-a-Lh14ZdvigYmSwK48hYCMUNStiDqdiAJa00SxgNE-G3tfr_p1XLsaSl2LM8dMuK0UaL3k04kI_El2WEoiacuThV3uPAagpjmZnGHwvvlWpsvIdYD83s2rsviEyWSiq5PVsi6DH9Ab2PKwKs-tNDzu1RK4RXKg==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium a le plaisir d’informer les actionnaires sur les plus récentes avancées significatives réalisées par sa société affiliée française, NOVACIUM SAS (« Novacium »), dans le domaine des batteries.</p>]]></description> <pubDate>Wed, 18 Sep 2024 11:30 GMT</pubDate> <dc:identifier>2948111</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Wed, 18 Sep 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/0ba8aaa5-b12a-4fcd-9600-2bdc568c596f"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/18/2948111/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-734-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-200-Cycles-Surpassant-de-66-les-Alternatives-Commerciales.html"> <img src="https://ml.globenewswire.com/Resource/Download/0ba8aaa5-b12a-4fcd-9600-2bdc568c596f" width="600" align="left" border="0" alt="Graphique 1 Capacité Batterie à 200 cycles" title="Graphique 1) Capacité moyenne, en milliampères-heures (mAh), des batteries 100% graphite, GEN1, GEN2 et GEN 3 sur 200 cycles [1] (lignes bleues, oranges, vertes et jaunes). " /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/20bcf1a5-86d0-4954-9a18-d4354c7a623f"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/18/2948111/0/fr/Les-Batteries-%C3%A0-Anodes-%C3%A0-Base-de-Silicium-Atteignent-3-734-mAh-avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-96-apr%C3%A8s-200-Cycles-Surpassant-de-66-les-Alternatives-Commerciales.html"> <img src="https://ml.globenewswire.com/Resource/Download/20bcf1a5-86d0-4954-9a18-d4354c7a623f" width="600" align="left" border="0" alt="Graphique 2 Capacité Relative des Batteries à 200 cycles" title="Graphique 2) la ligne bleue montre la capacité relative des batteries 100 % graphite, la ligne orange montre la capacité relative des batteries GEN1, la ligne verte la capacité relative des batteries GEN2, et la ligne jaune montre la capacité relative des batteries GEN3 sur 200 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>200 cycles</dc:keyword> <dc:keyword>silicon based batteries</dc:keyword> <dc:keyword>Silicon based anode</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/11/2944396/0/en/Silicon-Anode-Batteries-Outperform-Graphite-by-39-With-98-Capacity-Retention-After-150-Cycles.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/11/2944396/0/en/Silicon-Anode-Batteries-Outperform-Graphite-by-39-With-98-Capacity-Retention-After-150-Cycles.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Silicon-Anode Batteries Outperform Graphite by 39% With 98% Capacity Retention, After 150 Cycles</title> <description><![CDATA[<p>MONTREAL, Sept. 11, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=T7cbpvQEIv7m9kxHGwpBJx6FIk05MaghOsGfBdBMcCfF6NHWhKkVWTCN57mTnk2llcWc5fLE-44ihtTjNG2KhMAhpx0XilNkmg6nrw9zzL0=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=KPdysXFSHVSJGb2aSLEJs9vS8ovs2tBxHwMHGmI0yZntKlpIjQEcsSIwqacofwho0X_oQMWI1mS7QSXG6BMquR9kXHCgFDmuMXmOrQ1Y3MNTNAg_m5oNlNW0XfuLGT2V" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a><u>, </u><a href="https://www.globenewswire.com/Tracker?data=2xMWUlZoFjrCzaNHB6wjENQKr-l6pUDekXdH9N-u96SL82UddBMj6pTaJDAZyfGb8SO0Upt7AwcrMVB-mDYcrhtFFbgUz40CR45Ofdiwcn4=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=fvX-Nss5zJ3HSmMMbY154qEOHPRKibH-0bK6hOiQT8jOtjSAveBQni5qNxWmIVzS2iap_OjeQAhAs4AFAfXWXvSKOex-xiPH9wIiNxJf4yeMEF_F4tE6-do1AiAqR5D4smPMlv337TNZKX7ZqCi46v8elq3d0Nqz1NJszBjOif5oV_xe6_uEnHLmYWRkXOXo9XV0HX2iqAxeBzRIJt97K0WJxTDyZGTmNGPsJEM1jfvd3-fWEV1PXOfCLtVsYYFZGzEb3M_5w0Hmu4SRN9sZ6PqqIqYZlm7gBv6f1sC6r8Iz_EpTRjCM8LUZzE9ghoqR57Lllgf43gjqMx1TlEm0UKGlQKAEBBIILargu2znlDIrg8QtrcwwlXghbaV7KXQ8JiX4PMEQXUbltbgsk8RaOqlDCq2O6k90c0y-DiEtUMhrFAxlGK1qD12-BDoWLb2B_JW7drv26JLm_D_7Btv8fw==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials, is pleased to update shareholders on the latest battery milestones achieved by its France-based affiliate, NOVACIUM SAS ("Novacium").</p>]]></description> <pubDate>Wed, 11 Sep 2024 11:30 GMT</pubDate> <dc:identifier>2944396</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Wed, 11 Sep 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/d06fd8b9-a411-4350-b48a-f2fc058c8428"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/11/2944396/0/en/Silicon-Anode-Batteries-Outperform-Graphite-by-39-With-98-Capacity-Retention-After-150-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/d06fd8b9-a411-4350-b48a-f2fc058c8428" width="600" align="left" border="0" alt="Graph 1 Battery Capacity 150 cycles" title="Graph 1) Average capacity, in milliampere-hours (mAh), of 100% graphite, GEN1, GEN2 & GEN3 batteries over 150 cycle testing [1] (the blue, orange, green and yellow lines)." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/6d6e8a8e-cbb2-4ec8-a925-4b90ab4c7379"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/11/2944396/0/en/Silicon-Anode-Batteries-Outperform-Graphite-by-39-With-98-Capacity-Retention-After-150-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/6d6e8a8e-cbb2-4ec8-a925-4b90ab4c7379" width="600" align="left" border="0" alt="Graph 2 Relative Battery Capacity 150 cycles" title="Graph 2) The blue line shows the relative capacity of 100% graphite batteries, the orange line the relative capacity of GEN1 batteries, the green line the relative capacity of GEN 2 batteries and the yellow line shows the relative capacity of GEN 3 batteries over 150 cycles [1]" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>High Capacities Batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>batteries haute capacité</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Materiaux d'anode silicium</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/11/2944396/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-Surpassent-Celles-%C3%A0-Base-de-Graphite-de-39-Avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-98-Apr%C3%A8s-150-Cycles.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/11/2944396/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-Surpassent-Celles-%C3%A0-Base-de-Graphite-de-39-Avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-98-Apr%C3%A8s-150-Cycles.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Les Batteries à Anode de Silicium Surpassent Celles à Base de Graphite de 39 %, Avec une Rétention de Capacité de 98 % Après 150 Cycles</title> <description><![CDATA[<p>MONTRÉAL, 11 sept. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=T7cbpvQEIv7m9kxHGwpBJwoZmWNlxYKTUn6uP20R4g13OuqGgu5o_89sD6_hak1quFhlVHvRi7EL3FLXNnxqQbeaq6um09FBnjiVF04xZYI=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=KPdysXFSHVSJGb2aSLEJsz9G14F-gJvyEibrO_Nq7kEN-T1O0klflACouQkzYhtoa3QX7W7OUS8gHjwQgQH-VANKlWYlQws6-Ul_lD3CP6gdrcB3krXo8QvnxaDN_ncE5emZ_mp2wFE_NaXdMUtDog==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>) (<a href="https://www.globenewswire.com/Tracker?data=2xMWUlZoFjrCzaNHB6wjENQKr-l6pUDekXdH9N-u96SL82UddBMj6pTaJDAZyfGb8SO0Upt7AwcrMVB-mDYcrhtFFbgUz40CR45Ofdiwcn4=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>) (<a href="https://www.globenewswire.com/Tracker?data=fvX-Nss5zJ3HSmMMbY154qEOHPRKibH-0bK6hOiQT8jOtjSAveBQni5qNxWmIVzS2iap_OjeQAhAs4AFAfXWXvSKOex-xiPH9wIiNxJf4yeMEF_F4tE6-do1AiAqR5D4smPMlv337TNZKX7ZqCi46v8elq3d0Nqz1NJszBjOif5oV_xe6_uEnHLmYWRkXOXo9XV0HX2iqAxeBzRIJt97K0WJxTDyZGTmNGPsJEM1jfvd3-fWEV1PXOfCLtVsYYFZGzEb3M_5w0Hmu4SRN9sZ6PqqIqYZlm7gBv6f1sC6r8Iz_EpTRjCM8LUZzE9ghoqR57Lllgf43gjqMx1TlEm0UKGlQKAEBBIILargu2znlDIrg8QtrcwwlXghbaV7KXQ8JiX4PMEQXUbltbgsk8RaOqlDCq2O6k90c0y-DiEtUMhrFAxlGK1qD12-BDoWLb2B_JW7drv26JLm_D_7Btv8fw==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium a le plaisir d’informer les actionnaires sur les plus récentes avancées significatives réalisées par sa société affiliée française, NOVACIUM SAS (« Novacium »), dans le domaine des batteries.</p>]]></description> <pubDate>Wed, 11 Sep 2024 11:30 GMT</pubDate> <dc:identifier>2944396</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Wed, 11 Sep 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/59e30acc-fbc4-4ab6-bc37-dfa97896d021"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/11/2944396/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-Surpassent-Celles-%C3%A0-Base-de-Graphite-de-39-Avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-98-Apr%C3%A8s-150-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/59e30acc-fbc4-4ab6-bc37-dfa97896d021" width="600" align="left" border="0" alt="Graphique 1 Capacité Batterie à 150 cycles" title="Graphique 1) Capacité moyenne, en milliampères-heures (mAh), des batteries 100% graphite, GEN1, GEN2 et GEN 3 sur 150 cycles [1] (lignes bleues, oranges, vertes et jaunes). " /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/77425de1-4f11-4ca3-af7d-724b982f8ac4"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/11/2944396/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-Surpassent-Celles-%C3%A0-Base-de-Graphite-de-39-Avec-une-R%C3%A9tention-de-Capacit%C3%A9-de-98-Apr%C3%A8s-150-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/77425de1-4f11-4ca3-af7d-724b982f8ac4" width="600" align="left" border="0" alt="Graphique 2 Capacité Relative des Batteries à 150 cycles" title="Graphique 2) la ligne bleue montre la capacité relative des batteries 100 % graphite, la ligne orange montre la capacité relative des batteries GEN1, la ligne verte la capacité relative des batteries GEN2, et la ligne jaune montre la capacité relative des batteries GEN3 sur 150 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>High Capacities Batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>batteries haute capacité</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Materiaux d'anode silicium</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/03/2939668/0/en/GEN3-Silicon-Anode-Batteries-Continues-to-Outperform-Graphite-by-40-With-Minimal-Degradation-After-100-Cycles.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/03/2939668/0/en/GEN3-Silicon-Anode-Batteries-Continues-to-Outperform-Graphite-by-40-With-Minimal-Degradation-After-100-Cycles.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>GEN3 Silicon-Anode Batteries Continues to Outperform Graphite by 40% With Minimal Degradation After 100 Cycles</title> <description><![CDATA[<p align="left">MONTREAL, Sept. 03, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=z3Fo6ElIuD5xQV5lu6YhlrOrj7cayiTupCx2p1_-5VUA3oSweAIOu_W3_NT4K_qOGC7v-XYAYd0l5kKqg-DVpbIsKacDR8hLdC2MOM36T3s=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=TN9q-HkMR0EsgPiKgVhFzO_tsOcz_S59pIP38nwZk51RDhwChzTlsI4RANAWGKGXx7Iqqq7x3bBUO0ms_BikkoIGu_p3NB9B1YFgNlb1LOaS9jgd6dpKXtsJwwPXUSbo" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a>, <a href="https://www.globenewswire.com/Tracker?data=wk48vxAsC7PqzGinFDPBP3Xw29zH3ACCX6ycdqCcAaPXp0Sp7WzEcJyqzp-IG4Q_XY_a1gvQgyUsB_CBqg-QcFCOOGU5Hqa7zbTfUEdN9yA=" rel="nofollow" target="_blank" title=""><u>OTCQB: HPQFF</u></a>, <a href="https://www.globenewswire.com/Tracker?data=7gA9jaztCgUM_lssdIEQNsMPFEgd7-AzE7bYiHgIcaNuD0uUaXv6qUl19ucnMloi-6j89xZ28GX3dqiGZRieOc5xGJG94ct-HrrKS6YnijSQdaO74pTgo_b-NAtNfdazkPZtouPVZuSBq4gOviadN8qo0lGhTxlli1qx36MGfmDZP9ig44weNIxBKIsyhULyICCYuzEdTcKFWzMQrmFH_YdqfOd4os9Ovi0YRmttg1Cn_-agHkAuISB4a_YjZcg9YoAEKd8t1ULcHUUp4oI6jegJPc5lgRTwXbtJaBtqJLOb7xrFShBVPKUJ-PluYv1vywgxZNj00lET6ogSkgz2trHAzhfuYbe8hGjOkr4SEGpHDdHCevOn2YLVs2KKMvrD4FDUGAA7mqWeFNxrCcKrIt6ZKa__1mu2d_atzp-b_K9zFWaOc8lZKkr85syJRy0gT58r0B0W28e-lf9cRZW3Hw==" rel="nofollow" target="_blank" title=""><u>FRA: O08</u></a>), a technology company specializing in green engineering of silica and silicon-based materials, is pleased to update shareholders on new battery milestones achieved by its France-based affiliate, NOVACIUM SAS ("Novacium").</p>]]></description> <pubDate>Tue, 03 Sep 2024 12:15 GMT</pubDate> <dc:identifier>2939668</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Tue, 03 Sep 2024 12:15 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/1ddc6df1-015a-4a7a-9259-a0943e8f0aba"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/03/2939668/0/en/GEN3-Silicon-Anode-Batteries-Continues-to-Outperform-Graphite-by-40-With-Minimal-Degradation-After-100-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/1ddc6df1-015a-4a7a-9259-a0943e8f0aba" width="600" align="left" border="0" alt="Graph 1 Battery Capacity 100 cycles" title="Graph 1) Average capacity, in milliampere-hours (mAh), of 100% graphite, GEN1 & GEN2 batteries over 150 cycle testing [1] (the blue, orange and green lines). Average capacity of GEN3 batteries over 100 charge-discharge cycle testing [1] (the yellow line)." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/e9a59525-d743-49b2-b875-28d07ad3cf21"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/03/2939668/0/en/GEN3-Silicon-Anode-Batteries-Continues-to-Outperform-Graphite-by-40-With-Minimal-Degradation-After-100-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/e9a59525-d743-49b2-b875-28d07ad3cf21" width="600" align="left" border="0" alt="Graph 2 Relative Battery Capacity 100 cycles" title="Graph 2) the blue line shows the relative capacity of 100% graphite batteries, the orange line the relative capacity of GEN1 batteries, and the green line the relative capacity of GEN 2 batteries, over 150 cycles [1]. While the yellow line shows the relative capacity of GEN 3 batteries over 100 cycles [1" /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>high efficiency batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> <dc:keyword>silicium pour batteries</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/09/03/2939668/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-GEN3-Continuent-De-Surpasser-Les-Batteries-en-Graphite-de-40-apr%C3%A8s-100-Cycles-avec-une-D%C3%A9gradation-Minimale.html</guid> <link>https://www.globenewswire.com/news-release/2024/09/03/2939668/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-GEN3-Continuent-De-Surpasser-Les-Batteries-en-Graphite-de-40-apr%C3%A8s-100-Cycles-avec-une-D%C3%A9gradation-Minimale.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>Les Batteries à Anode de Silicium GEN3 Continuent De Surpasser Les Batteries en Graphite de 40 % après 100 Cycles, avec une Dégradation Minimale</title> <description><![CDATA[<p>MONTRÉAL, 03 sept. 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=z3Fo6ElIuD5xQV5lu6YhljNFb7uFQhA1_xOw2fY7_iK3jQ_IpILu8XJHXBbhQ88DMMrXh-_4K-24tPk5dIZgpDjSogV4lXKv-wvBgAr9RTQ=" rel="nofollow" target="_blank" title="HPQ Silicium inc.">HPQ Silicium inc.</a> (« HPQ » ou « la Société ») (<a href="https://www.globenewswire.com/Tracker?data=TN9q-HkMR0EsgPiKgVhFzKPADSbe1LYXD6aAr3OD5xmLmn_fLb0gRA6T52smTqmygBxEXV_HxFiAlkBokW518IKW6u_S8QPwTre6UBQf3pDI-cq1JcTxGvR6Y9p0s4BYI_6kSBmeNQAzqE_coQvCsQ==" rel="nofollow" target="_blank" title="">TSX-V: HPQ</a>) (<a href="https://www.globenewswire.com/Tracker?data=wk48vxAsC7PqzGinFDPBP3Xw29zH3ACCX6ycdqCcAaPXp0Sp7WzEcJyqzp-IG4Q_XY_a1gvQgyUsB_CBqg-QcFCOOGU5Hqa7zbTfUEdN9yA=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>) (<a href="https://www.globenewswire.com/Tracker?data=7gA9jaztCgUM_lssdIEQNsMPFEgd7-AzE7bYiHgIcaNuD0uUaXv6qUl19ucnMloi-6j89xZ28GX3dqiGZRieOc5xGJG94ct-HrrKS6YnijSQdaO74pTgo_b-NAtNfdazkPZtouPVZuSBq4gOviadN8qo0lGhTxlli1qx36MGfmDZP9ig44weNIxBKIsyhULyICCYuzEdTcKFWzMQrmFH_YdqfOd4os9Ovi0YRmttg1Cn_-agHkAuISB4a_YjZcg9YoAEKd8t1ULcHUUp4oI6jegJPc5lgRTwXbtJaBtqJLOb7xrFShBVPKUJ-PluYv1vywgxZNj00lET6ogSkgz2trHAzhfuYbe8hGjOkr4SEGpHDdHCevOn2YLVs2KKMvrD4FDUGAA7mqWeFNxrCcKrIt6ZKa__1mu2d_atzp-b_K9zFWaOc8lZKkr85syJRy0gT58r0B0W28e-lf9cRZW3Hw==" rel="nofollow" target="_blank" title="">FRA: O08</a>), une entreprise technologique spécialisée dans l'ingénierie verte des matériaux à base de silice et de silicium a le plaisir d’informer les actionnaires sur les plus récentes avancées significatives réalisées par sa société affiliée française, NOVACIUM SAS (« Novacium »), dans le domaine des batteries.</p>]]></description> <pubDate>Tue, 03 Sep 2024 12:15 GMT</pubDate> <dc:identifier>2939668</dc:identifier> <dc:language>fr</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>Ressources HPQ Silicium inc.</dc:contributor> <dc:modified>Tue, 03 Sep 2024 12:15 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/6b657fe0-dac0-4f0d-9d8c-7a38e26071c3"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/03/2939668/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-GEN3-Continuent-De-Surpasser-Les-Batteries-en-Graphite-de-40-apr%C3%A8s-100-Cycles-avec-une-D%C3%A9gradation-Minimale.html"> <img src="https://ml.globenewswire.com/Resource/Download/6b657fe0-dac0-4f0d-9d8c-7a38e26071c3" width="600" align="left" border="0" alt="Graphique 1 Capacité Batterie à 100 cycles" title="Graphique 1) Capacité moyenne, en milliampères-heures (mAh), des batteries 100% graphite, GEN1 & GEN2 sur 150 essais de cycle [1] (les lignes bleues, orange et vertes). Capacité moyenne des batteries GEN3 sur 100 essais de cycle charge-décharge [1] (la ligne jaune). " /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/0a46563f-faf5-48ef-b5ac-c8e26ef27d61"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/09/03/2939668/0/fr/Les-Batteries-%C3%A0-Anode-de-Silicium-GEN3-Continuent-De-Surpasser-Les-Batteries-en-Graphite-de-40-apr%C3%A8s-100-Cycles-avec-une-D%C3%A9gradation-Minimale.html"> <img src="https://ml.globenewswire.com/Resource/Download/0a46563f-faf5-48ef-b5ac-c8e26ef27d61" width="600" align="left" border="0" alt="Graphique 2 Capacité Relative des Batteries à 100 cycles" title="Graphique 2) la ligne bleue montre la capacité relative des batteries 100 % graphite, la ligne orange montre la capacité relative des batteries GEN1 et la ligne verte montre la capacité relative des batteries GEN2, sur 150 cycles [1], alors que la ligne jaune montre la capacité relative des batteries GEN3 sur 50 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Technical Analysis</dc:subject> <dc:keyword>high efficiency batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>Batteries haute capacite</dc:keyword> <dc:keyword>silicium pour batteries</dc:keyword> </item> <item> <guid isPermaLink="true">https://www.globenewswire.com/news-release/2024/08/21/2933426/0/en/GEN3-Silicon-Anode-Lithium-Ion-Batteries-Outperform-Graphite-by-40-Without-Degradation-After-50-Cycles.html</guid> <link>https://www.globenewswire.com/news-release/2024/08/21/2933426/0/en/GEN3-Silicon-Anode-Lithium-Ion-Batteries-Outperform-Graphite-by-40-Without-Degradation-After-50-Cycles.html</link> <category domain="https://www.globenewswire.com/rss/stock">TSX-V:HPQ</category> <category domain="https://www.globenewswire.com/rss/stock">Frankfurt:O08.F</category> <category domain="https://www.globenewswire.com/rss/stock">Other OTC:HPQFF</category> <category domain="https://www.globenewswire.com/rss/ISIN">CA40444R1001</category> <title>GEN3 Silicon-Anode Lithium-Ion Batteries Outperform Graphite by 40% Without Degradation After 50 Cycles</title> <description><![CDATA[<p>MONTREAL, Aug. 21, 2024 (GLOBE NEWSWIRE) -- <a href="https://www.globenewswire.com/Tracker?data=fPEt_vo9usuAIB7un3VHXgfCCe9cniJQQSJO9WvA5-j6jkM_yBTCfmIENYLaGzM1JDW2cBaNYXyxoCYE631ozNAJsb_zY3uwwm_yh0ZfB7Y=" rel="nofollow" target="_blank" title=""><u>HPQ Silicon Inc.</u></a> (“HPQ” or the “Company”) (<a href="https://www.globenewswire.com/Tracker?data=QIWSKUw_G-tNCFXjm-2hh2WQ4-OCirnO1-EQdbhptNK1bXuCcV8L633rxFdlvvhQ1BMoZzXtonzhXNrAUC9WXnsjmcfgAihluufUUuBZhQHjKHo1OWjGlwNU-6CYrQ_-" rel="nofollow" target="_blank" title=""><u>TSX-V: HPQ</u></a><u>, </u><a href="https://www.globenewswire.com/Tracker?data=CdHTuDSZSnSLzVg_AZb13cvn5fP4xl6h54vsQijJ_P6Yh3q7Cay8KAbkeZY178wsqyVbmV9PKt3ZW7t25aUmNi667K-2TVITNlrEPClg-q4=" rel="nofollow" target="_blank" title="">OTCQB: HPQFF</a>, <a href="https://www.globenewswire.com/Tracker?data=dAbyYnY7pY3DhEcS-jiKBumF81YFVNFmubX9YT2GgP2qgg44YuLowzTYQ_l9KtEyYBHIDW24cdwXlNYUTXQmRQXxO6Xsxa6bUuhFNoXRjEvo9YuyXigiVR1MzQ5B75VBFW-9Pdp0crE67p711Zo0fqh5i9D5a-ZrgFVWW1132u12Pn0dKQ5Pstw-1B49WMSJ0RoE_4UhPMi9l4rEs7g3xO_hHtRhtvKUm2MbjXOUHxZ5pwP8ZvKuhpYCFOAu9RkEXT0ZVLVot6zPNDSAkRfbYihNUwKy2J9HNGKjxN5CNRwgdyy6OyHYi3-uoQKereDqqLm3GaKVaj7FZSRvlBy-tMzMHo1_wQVOrRJsJFzKbrnM2_yzhm4guCxSLadPU4JW5Rgcsgd0BNjZcXFcbklrXQOikURKlUfsBSoQKTv6wC0IWQhedmnm3ONOZrneEQ_Zlzo4hlsNkNF1RgTuVLET9w==" rel="nofollow" target="_blank" title="">FRA: O08</a>), a technology company specializing in green engineering of silica and silicon-based materials is pleased to announce the latest significant battery milestones achieved by its France-based affiliate, NOVACIUM SAS ("Novacium").</p>]]></description> <pubDate>Wed, 21 Aug 2024 11:30 GMT</pubDate> <dc:identifier>2933426</dc:identifier> <dc:language>en</dc:language> <dc:publisher>GlobeNewswire Inc.</dc:publisher> <dc:contributor>HPQ Silicon Inc.</dc:contributor> <dc:modified>Wed, 21 Aug 2024 11:30 GMT</dc:modified> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/f47e8234-29d6-47e1-823c-2f92f22fc42b"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/08/21/2933426/0/en/GEN3-Silicon-Anode-Lithium-Ion-Batteries-Outperform-Graphite-by-40-Without-Degradation-After-50-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/f47e8234-29d6-47e1-823c-2f92f22fc42b" width="600" align="left" border="0" alt="Graph 1 - English Variation in battery capacity" title="The blue line shows the average capacity of 100% graphite batteries, the orange line, the average capacity of GEN1 batteries, and the green line the average capacity of GEN 2 batteries, over 150 charge-discharge cycle testing [1] while the yellow line shows the average capacity of GEN3 batteries over 50 charge-discharge cycle testing [1]. All readings are in milliampere-hours (mAh)." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <media:content medium="image" type="image/jpeg" width="600" url="https://ml.globenewswire.com/Resource/Download/e3007189-571d-4c00-ac12-b0ad10127da9"> <media:text type="html"><![CDATA[<p> <a href="https://www.globenewswire.com/news-release/2024/08/21/2933426/0/en/GEN3-Silicon-Anode-Lithium-Ion-Batteries-Outperform-Graphite-by-40-Without-Degradation-After-50-Cycles.html"> <img src="https://ml.globenewswire.com/Resource/Download/e3007189-571d-4c00-ac12-b0ad10127da9" width="600" align="left" border="0" alt="Graph 2 - English Relative capacity" title="The blue line shows the relative capacity of 100% graphite batteries, the orange line the relative capacity of GEN1 batteries, and the green line the relative capacity of GEN 2 batteries, over 150 cycles [1]. While the yellow line shows the relative capacity of GEN 3 batteries over 50 cycles [1]." /> </a> </p><br clear="all" />]]></media:text> <media:credit role="publishing company">GlobeNewswire Inc.</media:credit> </media:content> <dc:subject>Product / Services Announcement</dc:subject> <dc:keyword>18650 batteries</dc:keyword> <dc:keyword>LI-Ion Silicon batteries</dc:keyword> <dc:keyword>batteries Silicium</dc:keyword> <dc:keyword>Advance materials</dc:keyword> <dc:keyword>Li-Ion Batteries</dc:keyword> <dc:keyword>improved battery performance</dc:keyword> </item> </channel> </rss>