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Glassy Materials Based Microdevices



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Autore: Righini Nicoletta Visualizza persona
Titolo: Glassy Materials Based Microdevices Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica: 1 electronic resource (284 p.)
Soggetto non controllato: enhanced boiling heat transfer
microfluidic devices
thermal insulation
fibers
lab-on-a-chip
precision glass molding
device simulations
spray pyrolysis technique
dielectric materials
detection of small molecules
roughness
direct metal forming
micro-grinding
MEMS
chalcogenide glass
whispering gallery mode
down-shifting
glass
optofluidic microbubble resonator
luminescent materials
filling ratio
2D colloidal crystal
waveguides
micro-crack propagation
fluid displacement
biosensors
freeform optics
microstructured optical fibers
laser micromachining
polymeric microfluidic flow cytometry
luminescence
frequency conversion
light
micro/nano patterning
resonator
fiber coupling
distributed sensing
severing force
microsphere
alkali cells
microfabrication
hybrid materials
enclosed microstructures
infrared optics
glassy carbon micromold
Ag nanoaggregates
microfluidics
chemical/biological sensing
porous media
atomic spectroscopy
quartz glass
solar energy
diffusion
soft colloidal lithography
groove
compound glass
metallic microstructure
whispering gallery modes
sol-gel
communications
femtosecond laser
optofluidics
europium
aspherical lens
long period grating
optical cells
polymers
lasing
photovoltaics
microresonator
sensing
microspheres
light localization
Yb<sup>3+</sup> ions
laser materials processing
photonic microdevices
MEMS vapor cells
microtechnology
ultrafast laser micromachining
photon
single-cell protein quantification
strain microsensor
label-free sensor
microdevices
ultrafast laser welding
nuclear fusion
vectorial strain gauge
single-cell analysis
glass molding process
Persona (resp. second.): RighiniGiancarlo
Sommario/riassunto: Microtechnology has changed our world since the last century, when silicon microelectronics revolutionized sensor, control and communication areas, with applications extending from domotics to automotive, and from security to biomedicine. The present century, however, is also seeing an accelerating pace of innovation in glassy materials; as an example, glass-ceramics, which successfully combine the properties of an amorphous matrix with those of micro- or nano-crystals, offer a very high flexibility of design to chemists, physicists and engineers, who can conceive and implement advanced microdevices. In a very similar way, the synthesis of glassy polymers in a very wide range of chemical structures offers unprecedented potential of applications. The contemporary availability of microfabrication technologies, such as direct laser writing or 3D printing, which add to the most common processes (deposition, lithography and etching), facilitates the development of novel or advanced microdevices based on glassy materials. Biochemical and biomedical sensors, especially with the lab-on-a-chip target, are one of the most evident proofs of the success of this material platform. Other applications have also emerged in environment, food, and chemical industries. The present Special Issue of Micromachines aims at reviewing the current state-of-the-art and presenting perspectives of further development. Contributions related to the technologies, glassy materials, design and fabrication processes, characterization, and, eventually, applications are welcome.
Titolo autorizzato: Glassy Materials Based Microdevices  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910346852703321
Lo trovi qui: Univ. Federico II
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