Add to ORKGA new bonding technique is proposed for joining silicon wafers at room temperature. It is particularly useful, if low temperature processing, high electrical conductivity of the contacting areas, low organic impurities and chemically inert materials are required.This technique employs uniaxial pressing of an interfacial highly porous layer of gold powder. The porous gold is deposited on a pair of silicon substrates coated with a thin bilayer of Cr/Au. The coated substrates are then pressed onto each other with silicone tools at room temperature
A low temperature direct bonding process with encapsulated metal interconnections was proposed. The ...
Nanoporous gold bumps have been deposited on silicon wafers by electroplating a silver-gold alloy fo...
A bonding intensity testing method, called Press-arm model, has been successfully designed and verif...
A new bonding technique is proposed for joining silicon wafers at room temperature. It is particular...
A new method for bonding of two silicon wafers at room temperature is presented. The technique is ba...
Porous gold with porosity in nanoscale which indicates a highly reactive surface has shown its poten...
This paper is focused on a modified process for silicon direct bonding. Thin intermediate sodium sti...
In this paper a new class of modified silicon direct bonding processes is presented. The new process...
In microsystems technologies, frequently complex structures consisting of structured or plain silico...
The bonding of solids with atomically clean surfaces represents a low-temperature wafer direct bondi...
Abstract—Thermocompression bonding of gold is a promising technique for achieving low temperature, w...
A novel wafer bonding technology, designed to enable covalent and conductive wafer bonding processes...
WO 2009062757 A1 UPAB: 20090604 NOVELTY - The method for connecting two joining surfaces of a compon...
This paper describes the development of two bonding techniques for structured silicon wafer pairs. T...
A bonding intensity testing method, called Press-arm model, has been successfully designed and verif...
A low temperature direct bonding process with encapsulated metal interconnections was proposed. The ...
Nanoporous gold bumps have been deposited on silicon wafers by electroplating a silver-gold alloy fo...
A bonding intensity testing method, called Press-arm model, has been successfully designed and verif...
A new bonding technique is proposed for joining silicon wafers at room temperature. It is particular...
A new method for bonding of two silicon wafers at room temperature is presented. The technique is ba...
Porous gold with porosity in nanoscale which indicates a highly reactive surface has shown its poten...
This paper is focused on a modified process for silicon direct bonding. Thin intermediate sodium sti...
In this paper a new class of modified silicon direct bonding processes is presented. The new process...
In microsystems technologies, frequently complex structures consisting of structured or plain silico...
The bonding of solids with atomically clean surfaces represents a low-temperature wafer direct bondi...
Abstract—Thermocompression bonding of gold is a promising technique for achieving low temperature, w...
A novel wafer bonding technology, designed to enable covalent and conductive wafer bonding processes...
WO 2009062757 A1 UPAB: 20090604 NOVELTY - The method for connecting two joining surfaces of a compon...
This paper describes the development of two bonding techniques for structured silicon wafer pairs. T...
A bonding intensity testing method, called Press-arm model, has been successfully designed and verif...
A low temperature direct bonding process with encapsulated metal interconnections was proposed. The ...
Nanoporous gold bumps have been deposited on silicon wafers by electroplating a silver-gold alloy fo...
A bonding intensity testing method, called Press-arm model, has been successfully designed and verif...