Cellfion develops cellulose-based, PFAS-free membranes for hydrogen, battery and ion-separation technologies. Originating from research at KTH Royal Institute of Technology and Linköping University, these next-generation materials are designed to enable cleaner and more scalable energy systems.
Our collaboration focused on shaping a narrative that makes this complex technology clear and approachable. The film reflects the balance at the core of Cellfion’s work, scientific precision shaped by nature’s own materials. The result presents Cellfion as an innovator in sustainable membrane technology and provides a visual platform that helps communicate their direction to investors, partners and broader audiences.
Cellfion develops cellulose-based, PFAS-free membranes for hydrogen, battery and ion-separation technologies. Originating from research at KTH Royal Institute of Technology and Linköping University, these next-generation materials are designed to enable cleaner and more scalable energy systems.
Our collaboration focused on shaping a narrative that makes this complex technology clear and approachable. The film reflects the balance at the core of Cellfion’s work, scientific precision shaped by nature’s own materials. The result presents Cellfion as an innovator in sustainable membrane technology and provides a visual platform that helps communicate their direction to investors, partners and broader audiences.
Cellfion develops cellulose-based, PFAS-free membranes for hydrogen, battery and ion-separation technologies. Originating from research at KTH Royal Institute of Technology and Linköping University, these next-generation materials are designed to enable cleaner and more scalable energy systems.
Our collaboration focused on shaping a narrative that makes this complex technology clear and approachable. The film reflects the balance at the core of Cellfion’s work, scientific precision shaped by nature’s own materials. The result presents Cellfion as an innovator in sustainable membrane technology and provides a visual platform that helps communicate their direction to investors, partners and broader audiences.
Cellfion develops cellulose-based, PFAS-free membranes for hydrogen, battery and ion-separation technologies. Originating from research at KTH Royal Institute of Technology and Linköping University, these next-generation materials are designed to enable cleaner and more scalable energy systems.
Our collaboration focused on shaping a narrative that makes this complex technology clear and approachable. The film reflects the balance at the core of Cellfion’s work, scientific precision shaped by nature’s own materials. The result presents Cellfion as an innovator in sustainable membrane technology and provides a visual platform that helps communicate their direction to investors, partners and broader audiences.
The visual language is inspired directly by Cellfion’s membrane material. Through material studies, procedural 3D systems and fluid simulations, we explored the organic qualities of cellulose, its movement, texture and structure.
The project was developed in Houdini and Cinema 4D and rendered with Redshift. All sequences were refined in After Effects, where layers of light, movement and colour were shaped to express conductivity, flow and transformation.
The visual language is inspired directly by Cellfion’s membrane material. Through material studies, procedural 3D systems and fluid simulations, we explored the organic qualities of cellulose, its movement, texture and structure.
The project was developed in Houdini and Cinema 4D and rendered with Redshift. All sequences were refined in After Effects, where layers of light, movement and colour were shaped to express conductivity, flow and transformation.
The visual language is inspired directly by Cellfion’s membrane material. Through material studies, procedural 3D systems and fluid simulations, we explored the organic qualities of cellulose, its movement, texture and structure.
The project was developed in Houdini and Cinema 4D and rendered with Redshift. All sequences were refined in After Effects, where layers of light, movement and colour were shaped to express conductivity, flow and transformation.
The visual language is inspired directly by Cellfion’s membrane material. Through material studies, procedural 3D systems and fluid simulations, we explored the organic qualities of cellulose, its movement, texture and structure.
The project was developed in Houdini and Cinema 4D and rendered with Redshift. All sequences were refined in After Effects, where layers of light, movement and colour were shaped to express conductivity, flow and transformation.
