E. Giovine
National Research Council
26 Papers
78 Citations
E. Giovine is an academic researcher from National Research Council. The author has contributed to research in topics: Diamond & MESFET. The author has an hindex of 9, co-authored 26 publications.
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Papers
DC and RF performance of surface channel MESFETs on H-terminated polycrystalline diamond
P. Calvani,A. Corsaro,Marco Girolami,F. Sinisi,Daniele M. Trucchi,Maria Cristina Rossi,Gennaro Conte,S. Carta,E. Giovine,S. Lavanga,Ernesto Limiti,V. G. Ralchenko +11 more
TL;DR: In this paper, the performance of MESFETs fabricated on polycrystalline diamond was investigated in detail for different material electronic quality (grain size in the range 100-200 µm) and device geometry (drain-source channel length in the ranges 1-3µm).
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High Power Microstrip GaN-HEMT Switches for Microwave Applications
V. Alleva,A. Bettidi,Antonio Cetronio,M. De Dominicis,Mauro Ferrari,E. Giovine,C. Lanzierf,Ernesto Limiti,A. Megna,Marco Peroni,P. Romaninf +10 more
- 01 Oct 2008
TL;DR: In this article, the design, fabrication and test of X-band and 2-18 GHz wideband high power SPDT MMIC switches in microstrip GaN technology are presented.
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Wet sample confinement by superhydrophobic patterned surfaces for combined X-ray fluorescence and X-ray phase contrast imaging
Gabriele Ciasca,Luca Businaro,A. De Ninno,A. Cedola,A. Notargiacomo,Gaetano Campi,Massimiliano Papi,A. Ranieri,S. Carta,E. Giovine,Annamaria Gerardino +10 more
TL;DR: In this paper, a superhydrophobic patterned surface was fabricated and tested to enable the simultaneous collection of X-ray fluorescence (XRF) spectra and Xray phase contrast imaging (XPCI) using a few microliters drop confined on a super hydrophobic surface.
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Controlling the Cassie-to-Wenzel Transition: an Easy Route towards the Realization of Tridimensional Arrays of Biological Objects
Gabriele Ciasca,Massimiliano Papi,M. Chiarpotto,A. De Ninno,E. Giovine,Gaetano Campi,Annamaria Gerardino,M. De Spirito,Luca Businaro +8 more
TL;DR: In this paper, a patterned surface was fabricated in the Cassie-to-Wenzel transition, where a droplet containing genomic DNA was placed on the top edges between pillars.
Surface channel MESFETs on hydrogenated diamond
TL;DR: This work focused on the optimization of a self-aligned gate structure with respect to the fixed drain-to-source structure with which the new structure resulted in improvement of DC characteristics, better impedance matching and a reduction in the fMax/fT ratio.
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