Research
The AQilles project aims to identify lipid profiles in affected cells using computational simulation, artificial intelligence, and quantum computing.
Consortium members shared technical innovations and scientific progress updates, with an ambitious vision to improve the efficacy and safety of CAR T-based solid tumour-targeted cell therapies.
Led by Prof. Martín Fañanás at CiQUS, the ERC-CoG project Became explores the exciting potential of transforming methane from a harmful pollutant into valuable products.
CiQUS researchers reveal that oxygen vacancies can be controlled by an electric field in oxides, inducing large changes in the thermal conductivity.
Scientists demonstrate for the first time the feasibility of generating synthetic molecules within mammalian cells utilizing photocatalysts.
A work led by Dr. García Fandiño at CiQUS revealed specific alterations related to inflammation and the ongoing immune response.
The new compound acts selectively on the mitochondrial respiration of cancer stem cells, diminishing their potential to generate tumors.
O traballo desenvolvido en colaboración co IDIS, céntrase nos nanoportadores biomiméticos que camuflan o fármaco no sangue, evitando que se degrade para que chegue ao trombo con maior facilidade.
CiQUS researchers presented a novel kind of cyclic peptide that, when light-irradiated, induces the formation or dissociation of nanotubes on demand.
CiQUS Principal Investigator obtains significant support from Fundación "la Caixa" to explore a new approach to tackle bacterial resistance.
Souto becomes the 8th researcher at CiQUS to receive support from the European Research Council (ERC).
Investigadores del CiQUS han sintetizado y caracterizado farmacológicamente la colección más amplia de cannabinoides sintéticos descrita hasta la fecha.
Developed by CiQUS researchers,the new nanocarrier can fuse with the plasma membrane to release bioactive molecules into the cytosol of the cell.
CiQUS researchers will participate in CAR T-REX, a new EIC Pathfinder project funded with 2.7M € by the European Innovation Council.
CiQUS researchers reported in JACS new light-responsive membrane carriers for the translocation of peptide cargos inside living cells.
Scientists from CiQUS, ICN2, University of Cantabria, DIPC and DTU join forces to develop a versatile method for building brick by brick carbon nanocircuits with tunable properties.
The synthesis of azobenzene molecules allow CiQUS researchers to switch thermal conductivity in liquid crystals by light irradiation. The work has been featured in the cover of the Journal of Materials Chemistry C.
CiQUS researchers employed photochemical methods to reveal their screw sense excess and the presence of the elusive reversals. The study has been recently published in Nature Communications.
New SERS based analytical method developed by CiQUS researchers allows the detection tof complex mixtures of coloring components.
HeatNMof is training the next generation of material scientists with sound expertise in nanomedicine.