Search Results for:
IBEC-IFIBYNE Webinar Cycle (online) 12th July 2023 at 16:00 Javier Ramon
Organ on a chip models to emulate multi systemic metabolic diseases Javier Ramon, IBEC Existing on-chip tissue models typically represent a single organ, limiting systemic drug investigations. Microscale tissue analog … Read more
IBEC Seminar: Loris Rizzello
Towards an evolutionary-driven universal therapy against (intracellular) pathogens Università degli Studi di Milano We are living a time where we believe antibiotics are the cornerstone of any infectious disease-based therapy. … Read more
IBEC Seminar: Zev Gartner
Building tissues to understand how tissues build themselves Zev Gartner, UCSF Cells assemble into tissues and organs through an active process termed self-organization. Harnessing tissue self-organization will ultimately advance applications … Read more
PhD Thesis Defence: Manuel López Ortiz
Single molecule electrochemical studies of photosynthetic complexes Author: Manuel López Ortiz, Nanoprobes and Nanoswitches group Reading date: 14/07/2023 Reading time: 10:00 Reading place: Aula de graus Dufort de la facultat … Read more
NANOMED Spain will continue promoting nanomedicine in Spain
The Spanish Nanomedicine Platform, NANOMED Spain, has renewed the “Support for Technological and Innovation Platforms” granted by the Spanish Ministry of Science and Innovation for the period 2023-2024. Coordinated by IBEC since its foundation in 2005, the platform brings together companies, academia, and administration in a collaborative space with the goal of expediting the translation of nanomedicine from research to the clinic and the market.
Senior Translational Material Scientist/Chemist at the Molecular Bionics Group (STM_GB)
Ref: STM_GB // Deadline: 31/08/2023
IBEC launches the Inclusive Science project in collaboration with FECYT
It is an initiative that aims to help incorporate an inclusive view into science education activities. For this project, IBEC has collaborated with various professionals in the field of diversity and inclusion to design multiple ways of accessing information (visual, written, sensory, etc.). Now, the materials and tools developed are available to the scientific and educational community.
The internal clock of our cells is influenced by mechanical forces
IBEC researchers uncover how mechanical forces disrupt the circadian clock in cells, the mechanism governing daily physiological changes. The finding may help to better understand aging and specific diseases, like … Read more
Postdoctoral position at the Bacterial Infection and Antimicrobial Therapy (BIAT) Research Group (Pd_ET)
Ref: Pd_ET // Deadline: 07/07/2023