LiNaBioFluid project deliverables
The page lists 18 deliverables related to the research project "LiNaBioFluid".
List of Deliverables
| title and desprition | type | last update |
|---|---|---|
Images of first results of lizard-like surface morphologiesDelivery D3.2 publically reports on Task 3.1, which involves systematic laser irradiation experiments on flat samples made of inorganic materials along with the identification of the optimum processing parameters for laser-based mimicking of lizard-like surface structures. As a result, in Delivery D3.2 a comparison of SEM images of micro- and nanostructures found on lizard skin and of similar laser-structures generated on hard inorganic materials will be published on the LiNaBioFluid Website. Delivery D3.2 complements delivery D3.3. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Public summary of biological fluid transport mechanisms on web siteIn milestone M2 (month 12), the status of understanding of the biological mechanism for the fluid transport out of the bug capillaries onto the plates of the cuticle will be reported. A summary of these findings will be published on the public section of the LiNaBioFluid web site. Deliverable D2.3 is partially based on deliverable D2.2. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Publication of results on lizard skinDelivery D2.1 publically reports on Task 2.1 (Characterization lizard skin) in the form of an article in a peer-reviewed scientific journal about the findings on the function of micro-structures on the lizard integument for water transport using the Open Access model after end of Task 2.1. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
“LiNaBioFluid†web siteTo disseminate relevant up-to-date information regarding the project, a web site will be set up. This will be the main entry point to the project’s general information. The web site will be updated regulary. Part of it will be secure, so that all partners have access to relevant documents, contact data and other material developed through the project. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Publication of results on laser-induced surface structures on inorganic materialsDelivery D3.3 publically presents project results of Task 3.1 (Laser-based mimicking of lizard structures) at the traditional laser-matter interaction symposium at the spring meeting 2016 of the European Materials Research Society (May 2nd - 6th 2016 in Lille France), associated with an article submitted to the symposium proceedings (peer-reviewed). [The paper submission deadline for the symposium proceedings is expected to be in May/June 2016.] The current state of the results of Task 3.1 and the corresponding paper/draft will be presented during the first action check meeting in m12. Delivery D3.3 complements delivery D3.2. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
SEM images of nanostructures on web siteA comparison study will be performed by means of scanning electron microscopy (SEM) on micro- and nanostructures found on bug cuticles and similar features on polymer replicas of the bug cuticle. A summary of these findings will be published together with typical SEM images on the Website on the public section of the LiNaBioFluid web site. Delivery D2.2 presents first results from Task 2.2 (Characterization bug cuticle) and Task 2.3 (Polymer replica of bug cuticle). Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Large-area laser-fabricated self-organized structuresThis deliverable involves the identification of the optimum processing parameters for the fabrication of moderate-size (1 cm2), flat areas featuring nanostructured surfaces obtained by laser-induced self-organization processes. In particular, the main effort will be directed towards fabrication of surface structures consisting of parallel grooves and cone structures with controllable spacing and orientation. Optimum parameters will be identified by means of a systematic study on different inorganic materials, employing high-repetition rate pico- and femtosecond lasers and beam scanning. The parameter space explored will include substrate material, laser wavelength, pulse duration, repetition rate, polarization, pulse energy, spot size, scan velocity, line separation, and number of scans. The quality of the fabricated nanostructures in terms of arrangement, size, periodicity, lateral extension will be assessed by optical microscopy, scanning electron and atomic force microscopy. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Data Management Plan (DMP) - interim reportIn the framework of the Open Research Data pilot the consortium will prepare a DMP in month 6. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Demonstrator for a low-friction slide bearingThis deliverable involves the design, fabrication and testing of a slide bearing or pump part with laser-structured surface on inorganic material with bark bug-like design, featuring fast transport of lubricating fluids, which results in a friction coefficient reduced by more than 90% compared to that of a plain surface of the same material. The design will be defined according to the best results of D4.4 D4.2 and fabrication will be performed with using the high-repetition rate ultrashort laser system on the most suited material identified in D4.4 and D4.2. The functional performance of the demonstrator in terms of fluid transport will be tested and compared to state-of-the-art technology. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Demonstrators, pilots, prototypes | 2019-08-07 |
Laser-fabricated biomimetic structures up-scaled to manufacturing size and shapeThis deliverable involves the identification of the optimum processing parameters for the fabrication of large-size (10 cm2), non-flat areas, mimicking lizard- and bug-like surface structures on selected inorganic materials, employing high-repetition rate pico- and femtosecond lasers and beam scanning. The parameter space explored will include the parameters listed in D4.2 and additionally include input beam diameter, beam shape, focal length of scanning lens and dynamic beam expander settings. Optimized structures will be fabricated and their functional performance in terms of fluid transport tested. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Publication of results on hydrodynamic modellingDelivery D2.6 publically reports on results of Task 2.5 (Theoretical modelling) in form of an Article in a high-ranked peer-reviewed scientific journal about the results of theoretical modelling of the fluid transport on the nanostructures in animal integuments by the methods of hydrodynamics using the Open Access model after end of Task 2.5. Deliverable D2.6 is linked to deliverable D2.4. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Large-area laser-fabricated biomimetic structuresThis deliverable involves the identification of the optimum processing parameters for the fabrication of moderate-size (1 cm2), flat areas, mimicking lizard- and bug-like surface structures. The starting point will be the parameters identified in D4.4. Optimum parameters will be identified by means of a systematic study on different inorganic materials, employing high-repetition rate pico- and femtosecond lasers and beam scanning. The parameter space explored will include substrate material, laser wavelength, pulse duration, repetition rate, polarization, pulse energy, spot size, scan velocity, line separation, and number of scans. Optimized structures will be fabricated and their functional performance in terms of fluid transport tested. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Scientific articles and conference contributionsScientific articles and conference contributions Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Images of first results of bug-like surface morphologiesDelivery D3.4 publically reports on Task 3.2, which involves systematic laser irradiation experiments on flat samples made of inorganic materials along with the identification of the optimum processing parameters for laser-based mimicking of bug-like surface structures. As a result, in Delivery D3.4 a comparison of SEM images of micro- and nanostructures found on bug cuticles and of similar laser-induced structures generated on hard inorganic materials will be published on the LiNaBioFluid Website. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Publication of results on bug cuticlesDelivery D2.4 publically reports on results of Task 2.2 (characterisation bug cuticle) and Task 2.3 (Polymer replica of bug cuticle) in form of an article in a peer-reviewed scientific journal about the findings on the function of micro- and nanostructures of the bark bug cuticle for water transport using the Open Access model. Deliverable D2.4 is based on deliverable D2.3 and partially on D2.2. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Publication of results on laser-mimicking of bug-like surface structures and its fluid transportDelivery D3.6 publically presents project results of Task 3.2 (Laser-based mimicking of bug structures) and Task 3.3 (Characterization of fluid transport and friction/wear) at the traditional laser-matter interaction symposium at the spring meeting 2017 of the European Materials Research Society, associated with an article published in the symposium proceedings (peer-reviewed). [Date and location of the conference and associated deadlines are currently not specified.] Delivery D3.6 complements delivery D3.5. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |
Public summary of laser processing of bug-like surface structures with fast fluid transportIn milestone M5 (m24), the status of understanding of the laser-based mimicking of bug-like structures on inorganic materials surfaces providing a fast fluid transport will be reported. This includes an up-scaling and large-area manufacturing of the different characteristic surface structures (identified in Tasks 3.1 & 3.2) and performing fluid transport tests (Task 3.3) for identifying the wetting/spreading behavior of the laser processed surfaces. Associated with that milestone M5, in delivery D3.5 a public summary of these findings will be published on the LiNaBioFluid Website. Delivery D3.5 complements delivery D3.4. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Websites, patent fillings, videos etc. | 2019-08-07 |
Data Management Plan (DMP) - final reportThe report will summarize the final state of the DMP. Programme: H2020-EU.1.2.1. - Topic(s): FETOPEN-RIA-2014-2015 |
Documents, reports | 2019-08-07 |