“Thursday´s NanoSpin-off Talks”: Ana Guillem Navajas, from Porous Energy firm
On 30 April at 5.00 pm, the Cátedra SAMCA de Nanotecnología “Thursday’s NanoSpin-off Talks”’s lecture series will host a talk entitled “Porous energy and the future of advanced materials for energy storage”.
On this occasion, the session will take place in the Sala de Grados of the Torres Quevedo Building, on the Río Ebro Campus of the University of Zaragoza.
NO PRIOR REGISTRATION IS REQUIRED.
It will also be streamed live via TEAMS: “Thursday’s Nano Spin-off Talks” – Porous Energy | Reunión-Unirse | Microsoft Teams
La charla será impartida en modalidad presencial por Ana Guillem Navajas, CEO de Porous Energy. Porous Energy, spin-off de la Universidad Autónoma de Madrid (UAM), es una empresa tecnológica dedicada al desarrollo de electrodos de nueva generación para supercondensadores de alta densidad energética y bajo coste. Su tecnología patentada de impresión 3D microfluídica, aplicada a covalent organic frameworks (COFs) y grafeno, permite la fabricación de electrodos personalizables con capacidades de hasta 233 F/g. En este contexto, la ponente compartirá su experiencia en el desarrollo de materiales avanzados para aplicaciones de almacenamiento energético sostenible.
The talk will be delivered in person by Ana Guillem Navajas, CEO of Porous Energy. Porous Energy, a spin-off from the Autonomous University of Madrid (UAM), is a technology company dedicated to the development of next-generation electrodes for high-energy-density, low-cost supercapacitors. Its patented microfluidic 3D printing technology, applied to covalent organic frameworks (COFs) and graphene, enables the manufacture of customisable electrodes with capacities of up to 233 F/g. In this context, the speaker will share her experience in the development of advanced materials for sustainable energy storage applications.
During the session, current challenges in energy storage and the limitations of existing technologies in meeting the growing global demand for efficient and sustainable solutions will be addressed. It will also explore how advanced materials—in particular covalent organic frameworks (COFs) and their composites—can represent a turning point in this field. Using the case of Porous Energy, the session will illustrate how innovation in materials can enable the development of lighter, more efficient and environmentally friendly energy storage systems, contributing to a more sustainable future.
SUMMARY TOPIC TALK:
The talk will address the current challenges in energy storage and the limitations of existing technologies in meeting the growing global demand for efficient, sustainable solutions. It will explore how advanced materials—particularly covalent organic frameworks (COFs) and their composites—can represent a turning point in this field. Through the case of Porous Energy, the session will illustrate how material innovation can enable the development of lighter, more efficient, and environmentally friendly energy storage systems, contributing to a more sustainable future.
