Add to ORKGWe fabricated highly adherent and electrically conductive micropatterns on SU-8 by supersonic cluster beam deposition (SCBD). This technique is based on the aerodynamical acceleration of neutral metallic nanoparticles produced in the gas phase. The kinetic energy acquired by the nanoparticles allows implantation in a SU-8 layer, thus producing a metal-polymer nanocomposite thin layer. The nanocomposite shows ohmic electrical conduction and it can also be used as an adhesion layer for further metallization with a metallic overlayer. We characterized the electrical conduction, adhesion and biocompatibility of microdevices obtained by SCBD on SU-8 demonstrating the compatibility of our approach with standard lift off technology on 4’’ wafer. A...
Atomic clusters can be produced in a size range (100nm to 0.5nm) that bridges the gap between the li...
Supersonic cluster beam implantation of Ag nanoparticles is proposed for the fabrication of stretcha...
Nowadays, additive manufacturing (AM) is a promising process for the fabrication of devices for biom...
We fabricated highly adherent and electrically conductive micropatterns on SU-8 by supersonic cluste...
The interest for micro- and nanomanufacturing of polymeric materials is continuously increasing driv...
In spite the high level of complexity reached by micromachining in silicon technology, the integrati...
The possibility to develop electric devices which can be rolled up, bent or even deformed without lo...
Fused Filament Fabrication (FFF) three-dimensional printing have attracted much attention for fabric...
This article describes a new low-cost rapid microfabrication technology for high-density interconnec...
This letter describes the use of supersonic cluster beam deposition (SCBD) through a stencil mask fo...
In this work we present the microfabrication process for micro-electrode arrays (MEAs) designed for ...
Stretchable and compliant electrodes on polydimethylsiloxane (PDMS) are efficiently fabricated by th...
Techniques for producing electronic devices of smaller and smaller dimensions are currently a major ...
A new fabrication process has been developed to actuate microshutter arrays (MSA) electrostatically ...
A new technological approach that will allow contacting individual nano-objects is presented. An ult...
Atomic clusters can be produced in a size range (100nm to 0.5nm) that bridges the gap between the li...
Supersonic cluster beam implantation of Ag nanoparticles is proposed for the fabrication of stretcha...
Nowadays, additive manufacturing (AM) is a promising process for the fabrication of devices for biom...
We fabricated highly adherent and electrically conductive micropatterns on SU-8 by supersonic cluste...
The interest for micro- and nanomanufacturing of polymeric materials is continuously increasing driv...
In spite the high level of complexity reached by micromachining in silicon technology, the integrati...
The possibility to develop electric devices which can be rolled up, bent or even deformed without lo...
Fused Filament Fabrication (FFF) three-dimensional printing have attracted much attention for fabric...
This article describes a new low-cost rapid microfabrication technology for high-density interconnec...
This letter describes the use of supersonic cluster beam deposition (SCBD) through a stencil mask fo...
In this work we present the microfabrication process for micro-electrode arrays (MEAs) designed for ...
Stretchable and compliant electrodes on polydimethylsiloxane (PDMS) are efficiently fabricated by th...
Techniques for producing electronic devices of smaller and smaller dimensions are currently a major ...
A new fabrication process has been developed to actuate microshutter arrays (MSA) electrostatically ...
A new technological approach that will allow contacting individual nano-objects is presented. An ult...
Atomic clusters can be produced in a size range (100nm to 0.5nm) that bridges the gap between the li...
Supersonic cluster beam implantation of Ag nanoparticles is proposed for the fabrication of stretcha...
Nowadays, additive manufacturing (AM) is a promising process for the fabrication of devices for biom...