Bevilacqua; Maria Fortuna

Patent Applications and Registrations

Patent applications and USPTO patent grants for Bevilacqua; Maria Fortuna.The latest application filed is for "mems piezoelectric device and corresponding manufacturing process".

Company Profile

3.16.17

Bevilacqua; Maria Fortuna - Sant-Agata de Goti IT
BEVILACQUA; Maria Fortuna - Sant-Agata De Goti bn
Bevilacqua; Maria Fortuna - Gragnano IT
BEVILACQUA; Maria Fortuna - Gragnano NA
Bevilacqua; Maria Fortuna - GragnanoNA

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
MEMS piezoelectric device and corresponding manufacturing process Grant 11,417,827 - Bevilacqua , et al. August 16, 2	2022-08-16
Mems Piezoelectric Device And Corresponding Manufacturing Process App 20220246832 - BEVILACQUA; Maria Fortuna ; et al.	2022-08-04
Microneedle Array Device and Method of Making App 20210204847 - Di Palma; Vincenza ; et al.	2021-07-08
Microneedle array device and method of making Grant 10,987,039 - Di Palma , et al. April 27, 2	2021-04-27
Mems Piezoelectric Device And Corresponding Manufacturing Process App 20190115524 - BEVILACQUA; Maria Fortuna ; et al.	2019-04-18
MEMS piezoelectric device and corresponding manufacturing process Grant 10,186,654 - Bevilacqua , et al. Ja	2019-01-22
Biosensor Grant 9,910,005 - Di Matteo , et al. March 6, 2	2018-03-06
Method of manufacturing a biosensor Grant 9,823,210 - Di Matteo , et al. November 21, 2	2017-11-21
Mems Piezoelectric Device And Corresponding Manufacturing Process App 20170186940 - Bevilacqua; Maria Fortuna ; et al.	2017-06-29
Microneedle Array Device And Method Of Making App 20160157764 - DI PALMA; Vincenza ; et al.	2016-06-09
Biosensor App 20160077034 - Di Matteo; Andrea ; et al.	2016-03-17
Method Of Manufacturing A Biosensor App 20160077427 - Di Matteo; Andrea ; et al.	2016-03-17
Biosensor Grant 9,244,067 - Di Matteo , et al. January 26, 2	2016-01-26
Biosensor App 20140017772 - Di Matteo; Andrea ; et al.	2014-01-16
Method for growing carbon nanotubes having a predetermined chirality Grant 8,470,283 - Vinciguerra , et al. June 25, 2	2013-06-25
Method of fabricating nanosized filamentary carbon devices over a relatively large-area Grant 8,212,234 - Mascolo , et al. July 3, 2	2012-07-03
Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device Grant 8,143,086 - Portico Ambrosio , et al. March 27, 2	2012-03-27
Method Of Fabricating Nanosized Filamentary Carbon Devices Over A Relatively Large-area App 20120025166 - Mascolo; Danilo ; et al.	2012-02-02
Method of fabricating nanosized filamentary carbon devices over a relatively large-area Grant 8,048,785 - Mascolo , et al. November 1, 2	2011-11-01
Optically Controlled Electrical-switch Device Based Upon Carbon Nanotubes And Electrical-switch System Using The Switch Device App 20110212566 - PORTICO AMBROSIO; MICHELE ; et al.	2011-09-01
Method of forming light emitting devices comprising semiconducting single walled carbon nanotubes Grant 8,008,102 - Vinciguerra , et al. August 30, 2	2011-08-30
Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device Grant 7,944,011 - Portico Ambrosio , et al. May 17, 2	2011-05-17
Nanotube memory cell with floating gate based on passivated nanoparticles and manufacturing process thereof Grant 7,851,294 - Basco , et al. December 14, 2	2010-12-14
Nanotube Memory Cell With Floating Gate Based On Passivated Nanoparticles And Manufacturing Process Thereof App 20100296340 - Basco; Andrea ; et al.	2010-11-25
Method Of Fabricating Nanosized Filamentary Carbon Devices Over A Relatively Large-area App 20100264399 - MASCOLO; Danilo ; et al.	2010-10-21
Optically Controlled Electrical-switch Device Based Upon Carbon Nanotubes And Electrical-switch System Using The Switch Device App 20090321619 - PORTICO AMBROSIO; MICHELE ; et al.	2009-12-31
Optically controlled switching methods based upon the polarization of electromagnetic radiation incident upon carbon nanotubes and electrical-switch systems using such switch devices Grant 7,582,892 - Portico Ambrosio , et al. September 1, 2	2009-09-01
Method For Growing Carbon Nanatubes Having A Predetermined Chirality App 20090060827 - Vinciguerra; Vincenzo ; et al.	2009-03-05
Ir-light Emitters Based On Swnt's (single Walled Carbon Nanotubes), Semiconducting Swnts-light Emitting Diodes And Lasers App 20090011529 - Vinciguerra; Vincenzo ; et al.	2009-01-08
IR-light emitters based on SWNT's (single walled carbon nanotubes), semiconducting SWNTs-light emitting diodes and lasers Grant 7,329,902 - Vinciguerra , et al. February 12, 2	2008-02-12
Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device App 20060158760 - Portico Ambrosio; Michele ; et al.	2006-07-20
IR-light emitters based on SWNT's (single walled carbon nanotubes), semiconducting SWNTs-light emitting diodes and lasers App 20050017251 - Vinciguerra, Vincenzo ; et al.	2005-01-27

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