Introduction to Mesoline’s Emerging 3D Micro Printing Technology, Microchannel Particle Deposition (MPD), Used for MEMS & Sensors
Mesoline’s Microchannel particle deposition (MPD) is a wafer-scale thick-film deposition process where a polymeric stamp is used to transfer ink onto a substrate. This novel microfabrication technology offers ultra-small and reproducible micro features fabricated with extensive parallelization and high scalability. Unique process features include: (1) full wafers patterning in 15-minutes, (2) 1 to 50mm structures with up to 5/1 aspect ratios and 3) full 3D-control of the printed structures. Many different sensor applications of this technology will be introduced, including: (1) printing sensing electrodes for metal oxide gas sensors, (2)printing of getters for microbolometers, (3) printing of porous electrodes for biosensing applications and (4) accurate deposition of glass frit for advanced packaging applications.
Time
8:00 am - 9:00 am
Add to Calendar2023-12-06 08:00:002023-12-06 09:00:00Mesoline’s 3D Micro Printing Technology & Microchannel Particle DepositionIntroduction to Mesoline’s Emerging 3D Micro Printing Technology, Microchannel Particle Deposition (MPD), Used for MEMS & Sensors
Mesoline’s Microchannel particle deposition (MPD) is a wafer-scale thick-film deposition process where a polymeric stamp is used to transfer ink onto a substrate. This novel microfabrication technology offers ultra-small and reproducible micro features fabricated with extensive parallelization and high scalability. Unique process features include: (1) full wafers patterning in 15-minutes, (2) 1 to 50mm structures with up to 5/1 aspect ratios and 3) full 3D-control of the printed structures. Many different sensor applications of this technology will be introduced, including: (1) printing sensing electrodes for metal oxide gas sensors, (2)printing of getters for microbolometers, (3) printing of porous electrodes for biosensing applications and (4) accurate deposition of glass frit for advanced packaging applications.Virtual, Online, United StatesSEMI.orgcontact@semi.orgAmerica/Los_Angelespublic