Glassy Materials Based Microdevices

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Autore:	Righini Nicoletta
Titolo:	Glassy Materials Based Microdevices
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica:	1 online resource (284 p.)
Soggetto topico:	Energy industries & utilities
Soggetto non controllato:	2D colloidal crystal
	Ag nanoaggregates
	alkali cells
	aspherical lens
	atomic spectroscopy
	biosensors
	chalcogenide glass
	chemical/biological sensing
	communications
	compound glass
	detection of small molecules
	device simulations
	dielectric materials
	diffusion
	direct metal forming
	distributed sensing
	down-shifting
	enclosed microstructures
	enhanced boiling heat transfer
	europium
	femtosecond laser
	fiber coupling
	fibers
	filling ratio
	fluid displacement
	freeform optics
	frequency conversion
	glass
	glass molding process
	glassy carbon micromold
	groove
	hybrid materials
	infrared optics
	lab-on-a-chip
	label-free sensor
	laser materials processing
	laser micromachining
	lasing
	light
	light localization
	long period grating
	luminescence
	luminescent materials
	MEMS
	MEMS vapor cells
	metallic microstructure
	micro-crack propagation
	micro-grinding
	micro/nano patterning
	microdevices
	microfabrication
	microfluidic devices
	microfluidics
	microresonator
	microsphere
	microspheres
	microstructured optical fibers
	microtechnology
	nuclear fusion
	optical cells
	optofluidic microbubble resonator
	optofluidics
	photon
	photonic microdevices
	photovoltaics
	polymeric microfluidic flow cytometry
	polymers
	porous media
	precision glass molding
	quartz glass
	resonator
	roughness
	sensing
	severing force
	single-cell analysis
	single-cell protein quantification
	soft colloidal lithography
	sol-gel
	solar energy
	spray pyrolysis technique
	strain microsensor
	thermal insulation
	ultrafast laser micromachining
	ultrafast laser welding
	vectorial strain gauge
	waveguides
	whispering gallery mode
	whispering gallery modes
	Yb<sup>3+</sup> ions
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
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910346852703321
Lo trovi qui:	Univ. Federico II
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