<table name="logo_release" border="0" cellspacing="10" cellpadding="5" align="right">   <tbody>    <tr>     <td><img src="https://mma.prnasia.com/media2/2816030/Cell_Impact_Logo.jpg?p=medium600" border="0" alt="" title="logo" hspace="0" vspace="0" width="118" /></td>    </tr>   </tbody>  </table>  <p><span class="legendSpanClass">KARLSKOGA, <span class="xn-location">Sweden</span></span>, <span class="legendSpanClass"><span class="xn-chron">Nov. 7, 2025</span></span> /PRNewswire/ --&nbsp;Cell Impact and&nbsp;thyssenkrupp Automation Engineering have entered a Strategic Cooperation Agreement for Joint Market Success in the Field of Hydrogen. The agreement includes a shared ambition to carry out joint marketing activities as well as technical development of flow plates and manufacturing processes for fuel cells and electrolyzers.</p>  <div id="prni_dvprnejpg4ed7left" dir="ltr" style="TEXT-ALIGN: center; WIDTH: 100%">   <a href="https://mma.prnasia.com/media2/2816029/Cell_Impact_Forming.jpg?p=medium600" target="_blank" style="color: #0000FF"><img id="prnejpg4ed7left" title="The cooperation between Cell Impact and thyssenkrupp Automotion Engineering is based upon Cell Impact Forming??- a patented dry forming method using high kinetic energy to shape complex patterns in ultra-thin metal. By precisely controlling the impact velocity, it enables exceptional channel accuracy and thickness uniformity?봧deal for flow plates in fuel cells and electrolyzers." src="https://mma.prnasia.com/media2/2816029/Cell_Impact_Forming.jpg?p=medium600" alt="The cooperation between Cell Impact and thyssenkrupp Automotion Engineering is based upon Cell Impact Forming??- a patented dry forming method using high kinetic energy to shape complex patterns in ultra-thin metal. By precisely controlling the impact velocity, it enables exceptional channel accuracy and thickness uniformity?봧deal for flow plates in fuel cells and electrolyzers." align="middle" data-name="url$https%3A%2F%2Fmma.prnewswire.com%2Fmedia%2F2816029%2FCell_Impact_Forming.jpg" /></a>   <br />   <span>The cooperation between Cell Impact and thyssenkrupp Automotion Engineering is based upon Cell Impact Forming??- a patented dry forming method using high kinetic energy to shape complex patterns in ultra-thin metal. By precisely controlling the impact velocity, it enables exceptional channel accuracy and thickness uniformity?봧deal for flow plates in fuel cells and electrolyzers.</span>  </div>  <p>&nbsp;</p>  <p>thyssenkrupp Automation Engineering is a business unit of the automotive segment of the industrial group thyssenkrupp. With a focus on drive and battery assembly systems ??particularly for electric mobility ??the company offers high-quality, innovative automation solutions for series production. Around 1,100 employees work for Automation Engineering across ten countries on three continents.</p>  <p>&quot;They have extensive experience in automation and industrialization, and are simply a highly suitable partner for us. Based on Cell Impact Forming?? our unique and patented forming technology, we can scale the business together with thyssenkrupp by developing, marketing, and supplying cost-effective and high-quality flow plates to customers worldwide,&quot; says <span class="xn-person">Daniel Vallin</span>, CEO of Cell Impact.</p>  <p>During several years, Cell Impact has been developing forming technology and other process steps to enable industrial-scale production of flow plates once market demand is established.</p>  <p>The company has already manufactured and delivered several million flow plates to customers in <span class="xn-location">Asia</span>, <span class="xn-location">North America</span>, and <span class="xn-location">Europe</span>.</p>  <p>The cooperation agreement builds on a Letter of Intent (LOI) that the parties agreed upon in <span class="xn-chron">July 2025</span>.</p>  <p><b>For more information, please contact:</b><br /><span class="xn-person">Daniel Vallin</span><br />CEO and IR contact, Cell Impact AB (publ)<br />+46730686620 or <a href="mailto:daniel.vallin@cellimpact.com" target="_blank" rel="nofollow" style="color: #0000FF">daniel.vallin@cellimpact.com</a></p>  <p><b>About Cell Impact<br /></b>Cell&nbsp;Impact&nbsp;AB&nbsp;(publ)&nbsp;is&nbsp;a&nbsp;global&nbsp;supplier&nbsp;of&nbsp;advanced&nbsp;flow&nbsp;plates&nbsp;to&nbsp;fuel&nbsp;cell&nbsp;and&nbsp;electrolyzer&nbsp;manufacturers. The company has developed and patented a unique method for high velocity forming, Cell Impact Forming??which is significantly more scalable and cost-efficient compared to conventional forming methods. Cell Impact Forming is an environmentally friendly forming technology that consumes no water and very little electrical power.</p>  <p>The&nbsp;Cell&nbsp;Impact&nbsp;share&nbsp;is&nbsp;listed&nbsp;on&nbsp;Nasdaq&nbsp;First&nbsp;North&nbsp;Growth&nbsp;Market&nbsp;and&nbsp;FNCA Sweden&nbsp;AB&nbsp;is&nbsp;the company's Certified Advisor (CA).</p>  <p>&nbsp;</p>