1
Alessio Corazza, Claudio Boffito, Alessandro Gallitognotta, Richard C Kullberg, Michael L Ferris: Method for forming supported thin layers of non-evaporable getter material and getter devices formed thereby. SAES Getters S p A, Hickman & Martine, March 16, 1999: US05882727 (16 worldwide citation)

A method for forming a supported thin layer of non-evaporable getter (NEG) material and a getter device formed thereby are provided. A suspension comprised of non-evaporable getter (NEG) material particles in a dispersing medium is prepared. The NEG material particles in the suspension have a partic ...


2
Alberto Coda, Alessandro Gallitognotta, Debora Caccia, Paola Baronio, Luca Toia, Mario Porro: Non-evaporable getter alloys for hydrogen sorption. Saes Getters S p A, Panitch Schwarze Belisario & Nadel, June 1, 2010: US07727308 (3 worldwide citation)

Non-evaporable getter alloys are provided which can be activated at relatively low temperatures and are capable of efficiently sorbing hydrogen.


3
Alberto Coda, Alessio Corazza, Alessandro Gallitognotta, Vincenzo Massaro, Mario Porro, Luca Toia: Mercury dispensing compositions and manufacturing process thereof. Saes Getters S p A, Panitch Schwarze Belisario & Nadel, March 9, 2010: US07674428 (3 worldwide citation)

Compositions are disclosed comprising mercury, titanium, copper and one or more of tin, chromium and silicon, useful for the release of mercury in applications requiring the same, in particular in fluorescent lamps. A process for the preparation of these compositions is also disclosed.


4
Alessio Corazza, Claudio Boffito, Alessandro Gallitognotta, Richard C Kullberg, Michael L Ferris: Method for forming supported thin layers of non-evaporable getter material and getter devices formed thereby. SAES Getters S p A, Hickman Stephens & Coleman, January 18, 2000: US06016034 (2 worldwide citation)

A method for forming a supported thin layer of non-evaporable getter (NEG) material and a getter device formed thereby are provided. A suspension comprised of non-evaporable getter (NEG) material particles in a dispersing medium is prepared. The NEG material particles in the suspension have a partic ...


5
Alberto Coda, Alessandro Gallitognotta, Antonio Bonucci, Andrea Conte: Non-evaporable getter alloys particularly suitable for hydrogen and nitrogen sorption. Saes Getters S p A, Steinfl & Bruno, February 24, 2015: US08961816 (1 worldwide citation)

Getter devices based on powders of alloys particularly suitable for hydrogen and nitrogen sorption are described. Such alloys have a composition including zirconium, vanadium, titanium and, optionally, one or more elements selected from iron, chromium, manganese, cobalt, nickel and aluminum.


6
Alberto Coda, Alessandro Gallitognotta, Andrea Conte, Costanza Dragoni, Alessio Corazza: Method for the removal of hydrogen from a hydrogen sensitive device by means of a non-evaporable yttrium based getter alloy. Saes Getters S p A, Steinfl & Bruno, August 26, 2014: US08815115 (1 worldwide citation)

Getter alloys particularly suitable for hydrogen sorption are described. The getter alloys include a first element consisting of yttrium or a yttrium equivalent mixture, the first element forming at least 30% by atoms of the alloy. A method for removing hydrogen from devices which are sensitive to t ...


7
Alessandro Gallitognotta, Claudio Boffito, Alessio Corazza: Discharge lamps using hollow cathodes with integrated getters and methods for manufacturing same. SAES Getters S p A, Paul L Hickman, Perkins Coie, July 12, 2005: US06916223

A hollow cathode having at least a portion of the inner, outer or both surfaces coated with a layer of a getter material is described. Some methods for the production of the hollow cathode of the invention are also described, which include cathodic and electrophoretic deposition of the getter layer ...


8
Alberto Coda, Alessandro Gallitognotta, Andrea Conte: Non-evaporable getter alloys reactivable after exposure to reactive gases. SAES GETTERS S P A, Steinfl & Bruno, June 23, 2015: US09064668

Getter materials are described. The getter materials have non-evaporable getter alloys in their powder form having high gas sorption efficiency, particularly for hydrogen, carbon oxide and nitrogen, which after having lost their functionality in consequence of the exposure to reactive gases at a fir ...


9
Alessio Corazza, Alessandro Gallitognotta, Vincenzo Massaro: Non-evaporable getter compositions which can be reactivated at low temperature after exposure to reactive gases at a higher temperature. SAES GETTERS S P A, Steinfl & Bruno, March 8, 2016: US09278334

Compositions containing a mixture of non-evaporable getter alloys are described. The compositions, after having lost their functionality in consequence of the exposure to reactive gases at a first temperature, can then be reactivated through a thermal treatment at a second temperature that is lower ...


10
Alberto Coda, Alessandro Gallitognotta, Antonio Bonucci, Andrea Conte: Non-evaporable getter alloys particularly suitable for hydrogen and carbon monoxide sorption. SAES GETTERS S P A, Steinfl & Bruno, August 16, 2016: US09416435

Getter devices with improved sorption rate, based on powders of quaternary alloys particularly suitable for hydrogen and carbon monoxide sorption, are described. Quaternary alloys having a composition comprising zirconium, vanadium, titanium and aluminum as main constituent elements are also describ ...