This work explores the mechanism of microvia filling by copper electroplating using a printed circuit board (PCB) with a specific pattern design. The microvias employed in this work had no sidewall copper layer. The outer and inner copper layers of these microvias that had no sidewall copper layer were together connected to the cathode during electroplating in order to clarify the mechanism of bottom-up filling. A plating formula that was composed Of CuSO4, H2SO4, polyethylene glycol (PEG), bis(3-sulfopropyl) disulfide (SPS), Cl- and Janus Green B (JGB) was employed as a model formula for studying the filling mechanism. The results showed that bottom-up filling stemmed from two crucial factors. One was the sidewall growth of the microvia, i...
International audienceIn order to anticipate the further demands of miniaturization and integration ...
The effect of triblock copolymer EPE upon the microvia filling by Cu electrodeposition was investiga...
In conventional Cu electroplating, various additives are used to fill pattern without defects in pat...
The filling of microvias with a diameter of 5 µm and a depth of 25 µm (aspect ratio of 5) by copper ...
Microvia filling by copper electroplating was carried out using a plating bath containing a suppress...
High density interconnections (HDI) between multilayers and microvias are used in state-of-the-art p...
The filling of microvias with diameters between 30 and 100 μm and aspect ratios up to 2.5 in silicon...
Nowadays, high performance of integrated circuits is owing its interconnections and packaging techno...
The development of high density interconnects (HDI) for IC packaging substrate and printed circuit b...
Microvia interconnectors are a critical element of 3D packaging technology, as they provide the shor...
We present two approaches to reduce the process time needed for filling vias of 5 µm diameter and 25...
Electrochemical thermodynamics is the foundation of the microvia fill process, whose model represent...
International audienceIn order to anticipate the further demands of miniaturization and integration ...
A method is introduced for Cu bottom-up filling at trenches with dimensions similar to those of thro...
3D integration with TSVs (Through Silicon Via) is emerging as a promising technology for the next ge...
International audienceIn order to anticipate the further demands of miniaturization and integration ...
The effect of triblock copolymer EPE upon the microvia filling by Cu electrodeposition was investiga...
In conventional Cu electroplating, various additives are used to fill pattern without defects in pat...
The filling of microvias with a diameter of 5 µm and a depth of 25 µm (aspect ratio of 5) by copper ...
Microvia filling by copper electroplating was carried out using a plating bath containing a suppress...
High density interconnections (HDI) between multilayers and microvias are used in state-of-the-art p...
The filling of microvias with diameters between 30 and 100 μm and aspect ratios up to 2.5 in silicon...
Nowadays, high performance of integrated circuits is owing its interconnections and packaging techno...
The development of high density interconnects (HDI) for IC packaging substrate and printed circuit b...
Microvia interconnectors are a critical element of 3D packaging technology, as they provide the shor...
We present two approaches to reduce the process time needed for filling vias of 5 µm diameter and 25...
Electrochemical thermodynamics is the foundation of the microvia fill process, whose model represent...
International audienceIn order to anticipate the further demands of miniaturization and integration ...
A method is introduced for Cu bottom-up filling at trenches with dimensions similar to those of thro...
3D integration with TSVs (Through Silicon Via) is emerging as a promising technology for the next ge...
International audienceIn order to anticipate the further demands of miniaturization and integration ...
The effect of triblock copolymer EPE upon the microvia filling by Cu electrodeposition was investiga...
In conventional Cu electroplating, various additives are used to fill pattern without defects in pat...