Willibrordus G. van den Hoek - Saratoga CA, US Michael J. Kilkelly - Wakefield MA, US Dane Fawkes - Salem MA, US Felix Twaalfhoven - Marblehead MA, US Barbara Kilkelly - Wakefield MA, US
International Classification:
H05K 1/11 B05D 5/12 B29C 63/26
US Classification:
174257, 427 58, 216 18, 264267, 174264
Abstract:
Aluminum filled via disks are manufactured utilizing a plurality of drilled substrates placed into a metal can in a stacked, interdisposed assembly with a corresponding number of graphite molds. Aluminum infiltration ingots are added and the can is heated to a temperature to melt the ingots. The molten aluminum is pressurized so that it flows into the vias. The substrates are then cooled, removed from the can, separated from between the graphite molds, and the flat surface faces are ground and polished to expose the filled vias.
Coated Crucible And Method Of Making A Coated Crucible
Dane Fawkes - Amesbury MA, US Van Den Hock - Saratoga CA, US
International Classification:
C30B 11/00
US Classification:
117223, 427238, 427237, 427569
Abstract:
A crucible for forming a boule in a portion of an interior volume of the crucible. The crucible has a crucible base material forming the interior volume. The crucible base material is separated from the boule by a barrier coat disposed between the boule and the crucible base material. The barrier coat has a pin free conformal thickness conforming to a surface of the crucible base material regardless of a shape of a surface feature on the surface, the barrier coat having a melting point higher than that of the boule.
- Manchester NH, US David D. B. Cannan - Manchester NH, US Dirk A. van der Merwe - Canterbury NH, US Dean Kamen - Bedford NH, US Jason A. Demers - Manchester NH, US Frederick Morgan - Bedford NH, US Timothy D. Moreau - Manchester NH, US Brian D. Tracey - Litchfield NH, US Matthew Ware - Merrimack NH, US Richard J. Lanigan - Concord NH, US Michael A. Baker - Manchester NH, US David Blumberg, JR. - Deerfield NH, US Richard E. Andrews - Manchester NH, US Derek G. Kane - Manchester NH, US Dane Fawkes - Amesbury MA, US Thomas J. Bollenbach - Canton MA, US Michael C. Tilley - Concord NH, US Stuart A. Jacobson - Lexington MA, US John F. Mannisto - Bedford NH, US
A system and method for growing and maintaining biological material including producing a protein associated with the tissue, selecting cells associated with the tissue, expanding the cells, creating at least one tissue bio-ink including the expanded cells, printing the at least one tissue bio-ink in at least one tissue growth medium mixture, growing the tissue from the printed at least one tissue bio-ink, and maintaining viability of the tissue.
- Manchester NH, US David D. B. Cannan - Manchester NH, US Dirk A. van der Merwe - Canterbury NH, US Dean Kamen - Bedford NH, US Jason A. Demers - Manchester NH, US Frederick Morgan - Bedford NH, US Timothy D. Moreau - Manchester NH, US Brian D. Tracey - Litchfield NH, US Matthew Ware - Merrimack NH, US Richard J. Lanigan - Concord NH, US Michael A. Baker - Manchester NH, US David Blumberg, JR. - Deerfield NH, US Richard E. Gautney - Manchester NH, US Derek G. Kane - Manchester NH, US Dane Fawkes - Amesbury MA, US Thomas J. Bollenbach - Canton MA, US Michael C. Tilley - Amherst NH, US Stuart A. Jacobson - Lexington MA, US John F. Mannisto - Bedford NH, US
A system and method for growing and maintaining biological material including producing a protein associated with the tissue, selecting cells associated with the tissue, expanding the cells, creating at least one tissue bio-ink including the expanded cells, printing the at least one tissue bio-ink in at least one tissue growth medium mixture, growing the tissue from the printed at least one tissue bio-ink, and maintaining viability of the tissue.
- Manchester NH, US David D. B. Cannan - Manchester NH, US Dirk A. van der Merwe - Canterbury NH, US Dean Kamen - Bedford NH, US Jason A. Demers - Manchester NH, US Frederick Morgan - Bedford NH, US Timothy D. Moreau - Manchester NH, US Brian D. Tracey - Litchfield NH, US Matthew Ware - Merrimack NH, US Richard J. Lanigan - Concord NH, US Michael A. Baker - Manchester NH, US David Blumberg, JR. - Deerfield NH, US Richard E. Gautney - Manchester NH, US Derek G. Kane - Manchester NH, US Dane Fawkes - Amesbury MA, US Thomas J. Bollenbach - Canton MA, US Michael C. Tilley - Amherst NH, US Stuart A. Jacobson - Lexington MA, US John F. Mannisto - Bedford NH, US
A system and method for growing and maintaining biological material including producing a protein associated with the tissue, selecting cells associated with the tissue, expanding the cells, creating at least one tissue bio-ink including the expanded cells, printing the at least one tissue bio-ink in at least one tissue growth medium mixture, growing the tissue from the printed at least one tissue bio-ink, and maintaining viability of the tissue.
A transfer device designed to extract an amorphous or semi-solid structure, tissue, or construct from supporting media while maintaining the spatial integrity/organizational architecture thereof. The transfer device can include a controller, an actuator assembly, a plunger, and a needle. The controller can move the transfer device and the plunger independently.
A transfer device designed to extract an amorphous or semi-solid structure, tissue, or construct from supporting media while maintaining the spatial integrity/organizational architecture thereof. The transfer device can include a controller, an actuator assembly, a plunger, and a needle. The controller can move the transfer device and the plunger independently.
- Manchester NH, US Richard E. Gautney - Manchester NH, US Dane C. Fawkes - Amesbury MA, US
International Classification:
C12M 1/32 C12M 3/00 A61L 27/36 C12N 5/00
Abstract:
A transfer device designed to extract an amorphous or semi-solid structure, tissue, or construct from supporting media while maintaining the spatial integrity/organizational architecture thereof. The transfer device can include a controller, an actuator assembly, a plunger, and a needle. The controller can move the transfer device and the plunger independently.