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1. Roccalumera: ITN SNAL Summer School on biomaterials, cell membranes and lipid bilayers 2015 ITN SNAL Summer School on biomaterials, cell membranes and lipid bilayers is organized within the scope of training events of Initial Training Network SNAL funded by European Union through Marie Skłodowska-Curie actions. The summer school will be held at the Main Palace Hotel, a 4-star superior hotel in Taormina, Sicily from 24 July to 2 [...]...
2. Rome: SNAL workshop within 3rd World Congress on New Technologies (NewTech’17)   7 June 2017 from 12:10 to 17:30. The general topic of the meeting is the interactions of lipid membranes with nano-objects including functional biomimetic polymers, polymeric micelles, carbon nanotubes and polymer therapeutic complexes/conjugates to enable the intelligent design of novel materials with improved bilayer modifying properties. as a apart of 3rd World Congress on New Technologies (NewTech’17) Given the large [...]...
3. Informal ESR meeting of ITN SNAL network 6/7 Novembre 2014 6-7 November 2014 – Roda de Barà, Tarragona, Spain The second article of the Press Release section will be dedicated to the two days spent in Tarragona and organized by the MSCA Early Stage Researchers (ESRs). This meeting aimed to point out the role of ESRs within the ITN-SNAL Network, its possibilities and improve the relationships between the [...]...
4. ESR1-T: Computer simulations of equilibrium structures of lipid membranes and nano-objects Theoretical physics, theory in soft matter, computer simulations Contact Berardo Manzi Objectives The aim of this project is to understand the interactions of lipid membranes with nano-objects including functional biomimetic polymers, polymeric micelles, carbon nanotubes and polymer therapeutic complexes/conjugates to enable the intelligent design of novel materials with improved bilayer modifying properties. A full range of theoretical methods will be [...]...
5. ESR9-M: Investigation of interaction of membrane-lytic molecules with lipid monolayer Supported bilayers and vesicles Objectives The intention of this project is to obtain experimental information and feedback for system improvement of nano-objects interacting with model membranes (supported bilayers and vesicles). to apply a combination of techniques including neutron reflectivity, SANS (Manchester, Unilever), AFM, TEM (Strasbourg, Manchester) to characterise supported lipid bilayers and model vesicles; to  investigate  how  different  nano-objects  [...]...