IP Portfolio
NanoGUNE's Intellectual Property (IP) portfolio includes patents related to health, electronics, materials science and optics.
IP Portfolio
-
System for manufacturing a composite fiber structure
System for manufacturing composite fiber structures. CIC nanoGUNE technology, selected by ETPN, 5 machines sold in 2020.
-
Method for producing crystalline cellulose
Method for producing crystalline cellulose. Innovative technology by UPV-EHU, licensed to Evolgene.
-
Conductive cellulose composite materials and uses thereof
Conductive cellulose composites: nanoGUNE's sustainable materials with electrical properties for smart packaging and biodegradable electronics applications.
-
Novel lytic polysaccharide monooxygenase and uses thereof
-
Method for producing self-healing organic inorganic materials
-
Additive Manufacturing System
-
Endocellulases and uses thereof
Pioneering endocell research: nanoGUNE designs breakthrough therapies and biomedical applications. Explore our nanotechnology-driven solutions.
-
Method for the production of a conductive graphene-based ink and product thereof
-
Ancestral cellulases and uses thereof
Exploring ancient cells: nanoGUNE develops cutting-edge technologies to reinvent historical cell applications. Discover groundbreaking research.
-
Flow Cells for Liquid-Phase Transmission Electron Microscopy and Methods
Flow cells for TEM in liquid: nanoGUNE’s innovative methods for liquid-phase transmission electron microscopy.
-
Method for producing organic-inorganic hybrid materials
Magnetic particle manipulation in vessels: nanoGUNE's novel technology for domain wall propagation studies in microfluidics and biomedical applications.
-
Acceleration unit for high mass ions and high mass ion detector
-
A highly corrosion protective thin bi-layer stack for steel
Discover nanoGUNE's innovation: corrosion-resistant double-layer coating for steel protection. Cutting-edge nanotechnology for industrial applications.
-
Composite nucleic acid-fiber material for data storage
-
Method for extracting a transverse magneto-optic effect signal
Transverse magneto-optical signal extraction: nanoGUNE's novel method for detecting nanoscale magnetic phenomena with enhanced sensitivity and resolution.