SAFARI aims to advance scientific understanding of 2D materials through curiosity-driven research and exploring uncharted territory. Our goal is to discover novel phenomena and reveal new aspects of hybrid materials behavior.
SAFARI aims to advance scientific understanding of 2D materials through curiosity-driven research and exploring uncharted territory. Our goal is to discover novel phenomena and reveal new aspects of hybrid materials behavior.
By bringing together the distinctive properties of MXenes and graphene, which are highly conductive yet chemically stable, respectively, we seek to generate synergistic effects greater than the sum of their individual traits. The hybrid interactions at the nanoscale offer unique optimization possibilities
By bringing together the distinctive properties of MXenes and graphene, which are highly conductive yet chemically stable, respectively, we seek to generate synergistic effects greater than the sum of their individual traits. The hybrid interactions at the nanoscale offer unique optimization possibilities
All aspects of SAFARI’s work, from precursor selection to synthesis methods to applications development, adhere closely to principles of green chemistry and sustainability. Harnessing the power of eco-friendly production sets an example for future advances in engineered nanomaterials.
All aspects of SAFARI’s work, from precursor selection to synthesis methods to applications development, adhere closely to principles of green chemistry and sustainability. Harnessing the power of eco-friendly production sets an example for future advances in engineered nanomaterials.
Computational modeling plays a dual role – providing mechanistic details to explain experimental findings, and generating new hypotheses and design guidelines for the most promising hybrid systems and functionalizations to explore in the lab. This in silico-in vitro feedback loop accelerates progress.
Computational modeling plays a dual role – providing mechanistic details to explain experimental findings, and generating new hypotheses and design guidelines for the most promising hybrid systems and functionalizations to explore in the lab. This in silico-in vitro feedback loop accelerates progress.
By bringing diverse perspectives together – including materials science, 2D nanotechnology, green synthesis, device engineering, bioscience and toxicology – SAFARI fosters cross-pollination of cutting-edge ideas. Our collaborative team environment sparks unconventional thinking and integrative solutions.
By bringing diverse perspectives together – including materials science, 2D nanotechnology, green synthesis, device engineering, bioscience and toxicology – SAFARI fosters cross-pollination of cutting-edge ideas. Our collaborative team environment sparks unconventional thinking and integrative solutions.
Project Title
SAFE AND SUSTAINABLE BY DESIGN
GRAPHENE/MXENES HYBRIDS
HORIZON-CL4-2023-DIGITAL-EMERGING-01-32 –
Sustainable safe-by-design 2D materials technology (RIA)
Lucasiewicz – PIT
Coordinator:
Dariusz Garbiec
dariusz.garbiec@pit.lukasiewicz.gov.pl
Management:
Agnieszka Osipiuk
agnieszka.osipiuk@pit.lukasiewicz.gov.pl
Funded by the European Union under GA number 101135965. Views and options expressed are however those of the author(s) only and do not necessarily reflect those of the European Union. Neither the European Union nor the granting authority can be held responsible for them.
Funded by the European Union under GA number 101135965. Views and options expressed are however those of the author(s) only and do not necessarily reflect those of the European Union. Neither the European Union nor the granting authority can be held resonsible for them.
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