Add to ORKGLow-temperature joining with sintered silver is being developed as a lead-free, non-solder, die-attach solution for packag-ing power devices and modules. While its feasibility has been demonstrated, one major drawback of sintered silver joint is the high applied pressure during sintering to produce the desired bond strength. A high percentage of voids could also remain in the sintered joints. Applying the technique to large-area attachments also means a correspondingly higher applied pressure, and damage to the devices and substrates is possible. This study focused on the use of nanosilver paste as an attachment material that can be sintered at relatively low temperatures and pressures. Because of the difficulty of obtaining the die-shear s...
Nowadays, numerous power electronics application requires operation at high temperatures. In order t...
© 2014 Copyright © Taylor & Francis Group, LLC. The samples of sintered Ag joints for power die at...
Ag nanoparticle paste is prepared based on the polyol method and subsequent concentration by centrif...
Power electronic systems are needed in diverse areas such as electricity transmission or electrical ...
Pressure-assisted sintering processes to attach power devices using wet nanosilver pastes with time ...
This study investigates a time-reduced sintering process for die attachment, prepared, within a proc...
For decades soldering has been the technology of choice in die bonding. However, due to worldwide he...
Pressure-assisted sintering processes to attach power devices using wet nanosilver pastes with time ...
High power electronics with wide band gap semiconductors are becoming the most promising devices in ...
Nano-Ag paste is one of the most widely used die-attachment materials in modern electronic devices, ...
Modern power electronics has the increased demands in current density and high-temperature reliabili...
Sintering of nanosilver paste has been extensively studied as a lead-free die-attach solution for bo...
In this paper, the microstructure of Ag nano paste joint was investigated in pressure-less sintering...
This study focused on the time-reduced sintering process of nanosilver film and power cycling reliab...
Recently, nanosilver pastes have emerged as one of the most promising high temperature bonding mater...
Nowadays, numerous power electronics application requires operation at high temperatures. In order t...
© 2014 Copyright © Taylor & Francis Group, LLC. The samples of sintered Ag joints for power die at...
Ag nanoparticle paste is prepared based on the polyol method and subsequent concentration by centrif...
Power electronic systems are needed in diverse areas such as electricity transmission or electrical ...
Pressure-assisted sintering processes to attach power devices using wet nanosilver pastes with time ...
This study investigates a time-reduced sintering process for die attachment, prepared, within a proc...
For decades soldering has been the technology of choice in die bonding. However, due to worldwide he...
Pressure-assisted sintering processes to attach power devices using wet nanosilver pastes with time ...
High power electronics with wide band gap semiconductors are becoming the most promising devices in ...
Nano-Ag paste is one of the most widely used die-attachment materials in modern electronic devices, ...
Modern power electronics has the increased demands in current density and high-temperature reliabili...
Sintering of nanosilver paste has been extensively studied as a lead-free die-attach solution for bo...
In this paper, the microstructure of Ag nano paste joint was investigated in pressure-less sintering...
This study focused on the time-reduced sintering process of nanosilver film and power cycling reliab...
Recently, nanosilver pastes have emerged as one of the most promising high temperature bonding mater...
Nowadays, numerous power electronics application requires operation at high temperatures. In order t...
© 2014 Copyright © Taylor & Francis Group, LLC. The samples of sintered Ag joints for power die at...
Ag nanoparticle paste is prepared based on the polyol method and subsequent concentration by centrif...