Repsol expands its participation in NANOGAP through a significant capital increase

Repsol has decided to expand its participation in the Galician startup NANOGAP by a significant amount, after its entry into the capital of the company a year ago.
  • Through this capital increase, the energy multinational of Spanish origin demonstrates its confidence in the work, strategy and technology of the Galician startup
  • For NANOGAP, Repsol’s interest in broadening its participation represents a endorsement of its technological commitment, with enormous potential in industries such as sustainable energy, advanced chemistry and new materials.

BAC-TO-FUEL working on market and business activities

Ignacio Herráez Chamorro, Tech/Commercial at NANOGAP, is carrying on several activities focused on business and market aspects of BAC-TO-FUEL project.

Ignacio Herráez Chamorro, Tech/Commercial at NANOGAP, is carrying on several activities focused on business and market aspects of BAC-TO-FUEL project.

Find out how our innovative silver nanowires fit in your products

Our new production technology allows for new applications previously thought out of reach because of the high cost of traditional silver nanowires

Oct. 10th, 2019

Ignacio Herráez NANOGAP Ignacio Herráez, Techno-Commercial Engineer. i.herraez@nanogap.es

Silver nanowires create transparent conductive coatings or patterns that can be applied to just about any insulating surface, from glass to plastic to paper. How are these insulating materials transformed? Through the creation of a random network of invisible, highly conductive wires that cover just a tiny fraction of the total surface. Inks can be tailored to specific substrates and printing techniques, and the conductivity can be controlled by simply adjusting the amount of silver nanowires deposited.

Silver nanowires

Silver Atomic Quantum Clusters (AQCs) of three atoms for cancer therapy

Ag3 clusters (Ag3‐AQCs), produced by an efficient ad hoc method, provide evidence of the significance of targeting chromatin compaction to increase the therapeutic index of chemotherapeutic drugs.
 

Ag3 clusters (Ag3‐AQCs), produced by an efficient ad hoc method, provide evidence of the significance of targeting chromatin compaction to increase the therapeutic index of chemotherapeutic drugs.

NANOPLATA

Project Title NANOPLATA Year Start 2008 Year End 2009 Consortium members TECNALIA (CIDEMCO)NANOGAPXYLAZEL Description Study of metallic silver nanoparticles (Ag) as future active ingredients in wood preservative products.Synthesis of metal NPs of Ag of different sizes.Adequate functionalization of the NPs…

Bac-To-Fuel

Project Title Bac-to-fuel Website http://bactofuel.eu/ Year Start 2018 Year End 2021 Consortium members USCNANOGAPLancaster U.VITOWageningen U.TU Berlin Description BAC-TO-FUEL will respond to the global challenge of finding new sustainable alternatives to fossil fuels by developing, integrating and validating a disruptive…

INSPIRED

Project Title INSPIRED Year Start 2014 Year End 2018 Consortium members JOANNEUM RESEARCH FORSCHUNGSGESELLSCHAFT MBHNANOTECCENTER WEIZ FORSCHUNGSGESELLSCHAFT MBH NANOGAP SUB-NM-POWDER SAINTRINSIQ MATERIALS LIMITED M-SOLV LTDTHOMAS SWAN & CO LIMITEDBIONANONET FORSCHUNGSGESELLSCHAFT MBHTOUCHNETIX LIMITEDNEXCIS EUROLCDS SIANANOTECHNOLOGY INDUSTRIES ASSOCIATIONALMA MATER STUDIORUM – UNIVERSITA…