Projets financés
Graphene heterostructures with Nitrides for high frequency Electronics – GraNitE
- Fabrication d'hétérostructures de Graphene avec des Nitrures d'éléments III épitaxiés par MBE ou MOCVD sur différents substrats (Al2O3, SiC, GaN, Si). 2 approches sont envisagées:(i) le transfert sur III-N de Graphene obtenu par CVD sur Cuivre; (ii) la croissance directe de Graphene sur III-N et d
Nanofluidics and Ultrafiltration with Track Etched Graphene-Polymer-Composite Membranes – NU-TEGRAM
Les principaux objectifs de cette proposition sont les suivants : Nous envisageons de développer la fabrication de composites extrêmement robustes constitués de graphene et d’un film de polymère, ce qui permettra ensuite de produire des membranes d’ultrafiltration (UF) ou de nanofiltration (NF) pert
High-performance and lightweight Graphene-CFRP compressed Hydrogen storage tank for aerospace applications – GRMH2TANK
Compressed fuel for aerospace applications is since long seen as an outstanding durable and damage tolerant (D&DT), and reliable candidate for an environmentally sustainable future. Since the first studies, the design of light yet highly insulated tanks for pressurized hydrogen has been identified a
Towards Ubiquitous GRAphene based RF COmmunications ? demonstrating and understanding graphene based plasmonic THz antenna potential and limitations – TUGRACO
Nanotechnology is increasingly providing a plethora of new tools to design and manufacture miniaturized devices such as ubiquitous sensors, wearable electronics or pervasive computing systems. Such devices require wireless communications for information sharing and coordination. Unfortunately, reduc
Induced Spin Textures in van der Waals Heterostructures – iSpinText
After the discovery of graphene it was soon realized, that graphene is the perfect candidate for spintronics, due to its high mobility, low spin-orbit coupling and small or absent hyperfine fields. By now, spin relaxation lengths longer than 10 um have been demonstrated. Although the results are sti
Graphitic films of group III nitrides and group II oxides: platform for fundamental studies and applications – GRIFONE
This project aims at a breakthrough in the fabrication of graphene heterostructures with semiconducting materials by establishing and developing an innovative material concept for graphitic films of group III nitrides and group II oxides with particular reference to h-AlN and h-ZnO. These novel laye
Tailoring spin-interactions in graphene nanoribbons for ballistic fully spin-polarized devices – TAILSPIN
We propose here the realization of an ?all-graphene? spintronic prototype-device based on ballistic carrier transport in epitaxially grown graphene nanoribbons (GNRs) on appropriately designed SiC templates. Since both room temperature ballistic transport and ferromagnetic states were successfully i
Tailoring Spin-Orbit effects in Graphene for spin-orbitronic applications – SOgraph
The development of all-graphene spintronic devices requires that, in addition to its passive capability to transmit spins over long distances, other active properties are incorporated to graphene [1]. Recent advances by some of the partners have led to the generation of long range magnetic order and
Atomic-scale control of graphene magnetism using hydrogen atoms – HiMagGraphene
The selective generation of local magnetic moments in graphene layers is a key requirement to realize graphene spintronics, but still remains as a major experimental challenge. The main goal of this project is to provide an unambiguous experimental proof of this possibility by the adsorption and fur
Graphene-based optoelectrochemical sensor for the simultaneous monitoring of the electrical and chemical activity of single cells – Graphtivity
Improved understanding of molecular principles of neuronal communication allows new insights into neurodegenerative diseases and possibly to new therapeutic targets. However, there is a lack of tools able to monitor simultaneously electrical and chemicals signals of single cells. Therefore, we propo
2D functional MX2-graphenes – 2Dfun
The 948 has produced many exciting and valuable results so far. One of the main obstacles for real uptake in the industry however is the lack of scalable processes for making large area, high quality layers and hetero-structures of graphene and other 2D layered materials. Moreover, the interfaces in
Theoretical investigation of electronic transport in functionalized 2D transition metal dichalcogenides – Trans2DTMD
Metallic transition metal dichalcogenide (TMD) monolayers are promising ultrathin materials which have the potential to complete the range of graphene-related materials by offering tunable metallic phases with strong spin-orbit coupling. Many of them can be achieved by small structural deformations
Characterization of Graphene immune-impacts through omics approaches and genotoxic analysis – G-IMMUNOMICS
Graphene is the most promising, versatile, and sustainable key enabling nanotechnology material which may bring solutions in the near future to many areas spanning materials science and medicine. However, the potential interactions of graphene with biological systems deriving from its chemico-physic