Francesco Caruso scite author profile

Francesco Caruso

3Publications

27Citation Statements Received

40Citation Statements Given

How they've been cited

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131

Affiliations

Institute for Microelectronics and Microsystems, University of Milan, University of Milano-Bicocca

Publications

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High-throughput shadow mask printing of passive electrical components on paper by supersonic cluster beam deposition

Caruso

Bellacicca

Milani

2016

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We report the rapid prototyping of passive electrical components (resistors and capacitors) on plain paper by an additive and parallel technology consisting of supersonic cluster beam deposition (SCBD) coupled with shadow mask printing. Cluster-assembled films have a growth mechanism substantially different from that of atom-assembled ones providing the possibility of a fine tuning of their electrical conduction properties around the percolative conduction threshold. Exploiting the precise control on cluster beam intensity and shape typical of SCBD, we produced, in a one-step process, batches of resistors with resistance values spanning a range of two orders of magnitude. Parallel plate capacitors with paper as the dielectric medium were also produced with capacitance in the range of tens of picofarads. Compared to standard deposition technologies, SCBD allows for a very efficient use of raw materials and the rapid production of components with different shape and dimensions while controlling independently the electrical characteristics. Discrete electrical components produced by SCBD are very robust against deformation and bending, and they can be easily assembled to build circuits with desired characteristics. The availability of large batches of these components enables the rapid and cheap prototyping and integration of electrical components on paper as building blocks of more complex systems.

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Doping of silicon by phosphorus end-terminated polymers: drive-in and activation of dopants

et al. 2020

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Atomic Defects Profiling and Reliability of Amorphous Al₂O₃ Metal–Insulator–Metal Stacks

Torraca

Caruso

Padovani³

et al. 2022

IEEE Trans. Electron Devices

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