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Maritime Globalization, Network Externalities, and Transport Impacts on CitieS – MAGNETICS
The team wishes to demonstrate that the global maritime network went through several phases of rationalization and optimization since the late 19th century, at the expenses of its ties with urban settlements. Theories proposed by regional scientists explain that such an evolution is beneficial to no
Manufacture and study of ultra-thin films of highly boron-doped single crystal diamond – DeltaDiam
Several groups, either industrial or academic, mainly in Europe, Japan and USA, have recognized and begun to use the huge potentialities of synthetic diamond for implementing electronic devices. If all the electronic, thermal and chemical inertness properties of diamond were simultaneously utilized,
Manipulation of intracellular microbial sensors by the stealth pathogen Coxiella burnetii – ST-Health
Along evolution, intracellular bacterial pathogens have developed elaborated means to counter the immune response of their host in order to establish optimal replicative niches in which they replicate in high numbers. This is achieved by the secretion of bacterial effector proteins that divert the f
Magnetoresistance tunnel devices controlled by NaCl ultrathin layers properties – MAGIC CARPET
During the last decade, the magnetic tunnel junctions (MTJ) have gathered an increasing interest in nanoscience, as they became one of the key devices of a new field of research : spintronics. These heterostructures are made with two ferromagnetic electrodes (FM), separated by an insulating layer (t
MagnetoelectrIc oxideS for SpIn-OrbitroNics – MISSION
Inserting an electric field-driven magnetoelectric material (ME) in spin Hall effect (SHE)-based spin-orbit torque (SOT) architectures will yield a possibility to tune the SOT spin injection in the ME material via the application of a voltage and will allow lowering the charge current necessary for
MUltiscale and treFFtz for numerIcal traNsport – MUFFIN
In many applications, one is faced with the problem of solving numerically a set of transport equations, also called kinetic equations in this document. The huge difficulty attached to this task is that it may be computationally exhausting, mainly because of the high dimension and of the multi-scale
MULTI spectral SOLar cells based on SIlicon – MULTISOLSI
The MULTISOLSI project consists in studying, designing and optimizing the electrical junction between two relaxed lattice mismatched materials with zero or negligible strain relaxation defects, namely Ga1-xInxAs and Si in the first instance, in order to optimize a final GaAs/Si/ Ga0.24In0.76As tripl
MOdelling of Porous Electrodes for an Optimized MAterial Design – MOMA
This project is dedicated to a bottom-up approach to optimize the design of porous electrode materials devoted to biofuel cells and biosensors. These devices operate on the basis of complex enzymatic electrochemical redox reactions coupled to mass transfer of substrates (glucose and O2) and electron
MOF-decorated polymer monolith in sequential microcolumn for Enantioselective Catalysis and in-line Separation in continuous flow – ECaSep
The aim of this project is to address issues encountered in continuous flow enantioselective catalysis related to mass transfer limitations, catalyst immobilization guarantying high catalytic site density while maintaining both good enantioselectivity and high activity as well as the real-time monit
MIcrowave GRAphene QUantum ELectronics – MIGRAQUEL
Expectations rely on the high mobility, Fermi velocity, current carrying capability and thermal conductivity of graphene. The small and controllable number of conducting channels and the ultrathin geometry of top-gated transistors gives access to a regime where conductance, transconductance and gate
