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ILM encompasses interdisciplinary research at the frontier of scientific innovation over a broad field that extends from synthesizing to characterizing materials from nanometric to macroscopic scales.
Our skills and instruments are used to elaborate materials and to study their physical and chemical properties.
A large number of projetcs led by the iLM are at the interface between Biology, Health, Earth science, Environment, and Engineering. Our partnerships extend across a large network of industrial partners and international laboratories.
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Collaborations
Keywords
Binary compact
Mass spectrometry
Lasers
Radiotherapy
Thermal conductivity
Computer simulation
Microfluidics
Absorption
Gravitational radiation
Rheology
Molecular dynamics
Gravitational radiation direct detection
Gravitational radiation detector
Chirality
Metal clusters
Defects
Anions
VIRGO
Phase transitions
Imaging
Molecules
General relativity
Nanoclusters
Detector sensitivity
Chemical structure
Neutron star binary
Molecular structure
LIGO
Density functional theory
Optical spectroscopy
Plasmons
Absorption spectroscopy
Graphene
Micro-pulling-down method
Gadolinium
Ions
Nanomedicine
Radiosensitization
Gold
Phonons
Chemical elements
Glass
Raman spectroscopy
High pressure
Nanowires
Refractive index
Carbon nanotubes
Nanocrystals
Energy transfer
Functionalisation
Silver
Interfaces
Thin films
Ligands
Physical and chemical processes
Optical properties
Amorphous materials
Crystal growth
Raman
Active matter
Ceramics
Nanoparticle
Nanoparticules
Gravitational radiation emission
Nanoparticles
Glasses
MRI
Viscosity
Theranostic
Liquids
Friction
Plasticity
Polarization
Binary coalescence
Dissolution
Crystals
Oxides
Luminescence
Polymers
DFT
Cluster chemistry
Magnetic anisotropy
LIBS
Light scattering
Glioblastoma
Data analysis method
GAS-PHASE
Nanofluidics
Second harmonic generation
Transmission electron microscopy
Cancer
Fluorescence
Black hole binary
Spectroscopy
Field emission
Photoionization
Nonlinear optics
Quantum mechanics
Plasmonics
Energy
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