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Lecce, It Italy
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Professor
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Giuseppe Maruccio (1978) is Full Professor in Physics of Matter at University of Salento and head of the Omnics Research Group which comprises researchers with different backgrounds from physics to life sciences working in close collaboration to foster research in cross-disciplinary areas with applications spanning from -onics (electronics, spintronics and magnonics) to -omics technologies (genomics, proteomics and cellomics). Omnics laboratories are the Italian node of the European Infrastructure on Magnetism. G. Maruccio is author of more than 130 publications and 4 patents (h-index 26, citations >2000). From 2014 to 2019, he was Research Delegate for the Rector for the Univ. of Salento.
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lab on a chip
sensors
cenni su principali tecniche di microscopia
mirror
refraction law
lens
meccanica dei fluidi
legge di stevino
legge di pascal
spinta di archimede
fluidodinamica
flusso laminare e turbolento
equazione di continuitÃ
portata
equazione di bernoulli
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forze coesive ed adesive
idrofobicità ed angolo di contatto
gel elettroforesi
centrifugazione
microfluidica
fluidodynamics
stevino and pascal law
buoyant force
laminar and turbolent regime
bernoulli principle
biosensors
diagnostics
nanoelectronics
quantum hall effect
molecular electronics
landau levels
quantum transport
quantum point contacts
mesoscopic devices
scanning tunneling microscopy and spectroscopy
single electron transistors
physics of inorganic nanostructures
quantum wells/wires/dots
carbon nanotubes
graphene
conductive polymers and organic semiconductors
geometrical optics
reflection law
total internal reflection
the microscope
ottica geometrica
legge della riflessione
riflessione interna totale
specchi
legge della rifrazione
diottri
lenti
sistemi ottici
l'occhio
il microscopio
deposition
pvd
cvd
ald
sputtering
scanning probe microscopy
atomic force microscopy
contact
non contact
tapping modes
nanomechanics
lateral force microscopy
phase imaging
electric force microscopy
magnetic force microscopy
cantiliver fabrication and characterization
tip performance
force spectroscopy
force volume
nanoindentation
macromolecule unfolding
nanomechanical properties
cytomechanics
from classical to modern physics – energy quantiza
black body radiation
photoelectric effect
x ray spectra and bremsstrahlung
compton effect
nanomedicine
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saw
eis
electrical/electrochemical
magnetoresistive sensors
mechanical/gravimetric
optical/spr sensors
thermometric
microfluidics
navier-stokes equations
soft lithographies
miniaturization
moore law
semiconductor technologies
microfabrication techniques
clean room
lithography
photolitography
electron beam lithography
focused ion beam
x ray lithography
interference lithography
scanning probe lithography
dip pen lithography
soft lithography
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