The possibility of fabricating micrometric pore size membranes is gaining great interest in many applications, from studying cell signaling, to filtration. Currently, many technologies are reported to fabricate such microsystems, the choice of which depends strictly on the substrate material and on the final application. Here, we demonstrate the capability with a single femtosecond laser source and experimental setup to fabricate micromembranes both on polymeric and multilayer metallic substrate, without the need for moulds, mask, and complex facilities. In particular, the flexibility of laser drilling was exploited to obtain microfilters with pore size of 8 and 18 µm in diameter, on metallic and polymeric substrate, respectively, and contr...
This paper reviews applications of laser-based techniques to the fabrication of microfluidic devices...
Femtosecond laser optoporation is a powerful technique to introduce membrane-impermeable molecules, ...
Organ-on-a-chip devices are gaining popularity in medical research due to the possibility of perform...
Engineered tissue barrier models offer in vitro alternatives in toxicology and disease research. To ...
Lab-on-a-chip biological platforms have been intensively developed during the last decade since emer...
Microfabrication using femtosecond pulse lasers is enabling access to a range of structures, surface...
The basal lamina or basement membrane (BM) is a key physiological system that participates in physic...
Embedded porous membranes are a key element of various organ-on-chip systems. The widely used commer...
We developed a confined microfluidic cell culture system with a bottom plate made of a microscopic s...
Flash photolysis of caged compounds is one of the most powerful approaches to investigate the dynami...
AbstractFemtosecond laser optoporation is a powerful technique to introduce membrane-impermeable mol...
Flash photolysis of caged compounds is one of the most powerful approaches to investigate the dynami...
2016 Dec 11. [Epub ahead of print]Engineering of sophisticated synthetic 3D scaffolds that allow con...
A femtosecond laser can be used for single or multiple writing processes to create sub 10-μm lines o...
textThe environment encountered by a single cell in vivo is a complex and dynamic system that is oft...
This paper reviews applications of laser-based techniques to the fabrication of microfluidic devices...
Femtosecond laser optoporation is a powerful technique to introduce membrane-impermeable molecules, ...
Organ-on-a-chip devices are gaining popularity in medical research due to the possibility of perform...
Engineered tissue barrier models offer in vitro alternatives in toxicology and disease research. To ...
Lab-on-a-chip biological platforms have been intensively developed during the last decade since emer...
Microfabrication using femtosecond pulse lasers is enabling access to a range of structures, surface...
The basal lamina or basement membrane (BM) is a key physiological system that participates in physic...
Embedded porous membranes are a key element of various organ-on-chip systems. The widely used commer...
We developed a confined microfluidic cell culture system with a bottom plate made of a microscopic s...
Flash photolysis of caged compounds is one of the most powerful approaches to investigate the dynami...
AbstractFemtosecond laser optoporation is a powerful technique to introduce membrane-impermeable mol...
Flash photolysis of caged compounds is one of the most powerful approaches to investigate the dynami...
2016 Dec 11. [Epub ahead of print]Engineering of sophisticated synthetic 3D scaffolds that allow con...
A femtosecond laser can be used for single or multiple writing processes to create sub 10-μm lines o...
textThe environment encountered by a single cell in vivo is a complex and dynamic system that is oft...
This paper reviews applications of laser-based techniques to the fabrication of microfluidic devices...
Femtosecond laser optoporation is a powerful technique to introduce membrane-impermeable molecules, ...
Organ-on-a-chip devices are gaining popularity in medical research due to the possibility of perform...