Add to ORKGWe investigated the growth of in-situ n-type doped epitaxial Si layers with arsenic and phosphorus by means of low-temperature chemical vapor deposition using trisilane as Si-precursor. Indeed, in order to prevent the alteration of the characteristics of the devices which are already present on the wafer, an epitaxy process at low temperature is highly desired for applications such as BiCMOS. In this work, the varying parameters are the deposition temperature, the Si-precursor mass flow and the dopant gas flow. As a result, a process for the deposition of heavily doped epilayers was demonstrated at 600 °C with high deposition rate, which is important for maintaining high throughput and low process cost. We showed that using trisilane as a S...
peer reviewedLow temperature epitaxial growth of group-IV alloys is a key process step to realize th...
Selective epitaxial growth of silicon in windows opened in a mask is usually carried out using sourc...
In this paper, an HCI free silicon selective epitaxy process is presented. The low pressure chemical...
peer reviewedWe investigated the growth of in-situ n-type doped epitaxial Si layers with arsenic and...
Device scaling and novel device architectures continue to drive the evolution of silicon epitaxial p...
Gas molecular-flow preshowering treatment onto the silicon (St) substrate surface during the tempera...
The low temperature epitaxy of Si and SiGe has been investigated with a disilane-based precursor. Th...
The deposition of epitaxial silicon films at temperatures from 600~176 by both very low-pressure che...
Low temperature epitaxial growth of group-IV alloys is a key process step to realize the advanced Si...
We report an alternative approach to grow phosphorus-doped epitaxial silicon emitter by rapid therma...
We report an alternative approach to grow phosphorus-doped epitaxial silicon emitter by rapid therma...
The growth of intrinsic SiGe and, n- and p-type doping of Si and SiGe layers was studied using a Red...
The B2H6 - and PH3 - partial pressure dependence of the doping concentration of in-situ doped silico...
The key process steps for growing high-quality Si-based epitaxial films via reduced pressure chemica...
The authors report on the first known growth of high-quality epitaxial Si via the hot wire chemical ...
peer reviewedLow temperature epitaxial growth of group-IV alloys is a key process step to realize th...
Selective epitaxial growth of silicon in windows opened in a mask is usually carried out using sourc...
In this paper, an HCI free silicon selective epitaxy process is presented. The low pressure chemical...
peer reviewedWe investigated the growth of in-situ n-type doped epitaxial Si layers with arsenic and...
Device scaling and novel device architectures continue to drive the evolution of silicon epitaxial p...
Gas molecular-flow preshowering treatment onto the silicon (St) substrate surface during the tempera...
The low temperature epitaxy of Si and SiGe has been investigated with a disilane-based precursor. Th...
The deposition of epitaxial silicon films at temperatures from 600~176 by both very low-pressure che...
Low temperature epitaxial growth of group-IV alloys is a key process step to realize the advanced Si...
We report an alternative approach to grow phosphorus-doped epitaxial silicon emitter by rapid therma...
We report an alternative approach to grow phosphorus-doped epitaxial silicon emitter by rapid therma...
The growth of intrinsic SiGe and, n- and p-type doping of Si and SiGe layers was studied using a Red...
The B2H6 - and PH3 - partial pressure dependence of the doping concentration of in-situ doped silico...
The key process steps for growing high-quality Si-based epitaxial films via reduced pressure chemica...
The authors report on the first known growth of high-quality epitaxial Si via the hot wire chemical ...
peer reviewedLow temperature epitaxial growth of group-IV alloys is a key process step to realize th...
Selective epitaxial growth of silicon in windows opened in a mask is usually carried out using sourc...
In this paper, an HCI free silicon selective epitaxy process is presented. The low pressure chemical...