Add to ORKG3-D CMOS IC Technology built on two layers of large grain polysilicon is presented. These stacked layers are vertically interconnected allowing shorter interconnect to improve the logic speed. The large grain polysilicon-on-insulator (LPSOI) film is formed by the recrystallization of amorphous silicon through Metal Induced Lateral Crystallization (MILC). The crystallization region obtained can cover multiple transistors and the grain size is much larger than the transistor size. An oxide layer separates two layers of devices and forms an interlayer dielectric. The electrical performance of the LPSOI devices is presented. Inverters. ring-oscillators and shift registers further confirm that the recrystallized techniques forming the 3-D struct...
Metal-Induced-Lateral-Crystallization (MILC) followed by high temperature annealing has been used fo...
Large grain (> 10 um) poly-Si film has been formed from nickel Metal Induced Lateral Crystallization...
A novel metal-induced lateral crystallization (MILC) technique, involving a low temperature crystall...
In this paper, we report high performance three-dimensional (3-D) CMOS integrated circuits. The firs...
A high performance three-dimensional (3-D) CMOS integrated circuit has been successfully fabricated....
A three-dimensional (3-D) CMOS integrated circuit was fabricated based on the conventional CMOS SOI ...
The large-grain polysilicon metal oxide semiconductor field effect transistor (MOSFET) was fabricate...
A large grain size and a high material quality of polysilicon (p-Si) film is desirable for high perf...
Methods for forming high quality re-crystallizing polysilicon films are being actively studied due t...
The invention is a simple method to fabricate multiple layers of transistors with one on top of each...
Aligned polysilicon grain boundaries effects on the performance of the MOSFET fabricated on Large-gr...
Polysilicon with large grain size of the order of several ten's of micron were obtained by combining...
A methodology to design high-performance MOSFETs on the large-grain polysilicon-on-insulator (LPSOI)...
The characteristics of thermal polyoxide grown on Large-grain Polysilicon-On-Insulator (LPSOI) forme...
Effects of process annealing temperature on Metal-Induced-Lateral-Crystallization (MILC) growth rate...
Metal-Induced-Lateral-Crystallization (MILC) followed by high temperature annealing has been used fo...
Large grain (> 10 um) poly-Si film has been formed from nickel Metal Induced Lateral Crystallization...
A novel metal-induced lateral crystallization (MILC) technique, involving a low temperature crystall...
In this paper, we report high performance three-dimensional (3-D) CMOS integrated circuits. The firs...
A high performance three-dimensional (3-D) CMOS integrated circuit has been successfully fabricated....
A three-dimensional (3-D) CMOS integrated circuit was fabricated based on the conventional CMOS SOI ...
The large-grain polysilicon metal oxide semiconductor field effect transistor (MOSFET) was fabricate...
A large grain size and a high material quality of polysilicon (p-Si) film is desirable for high perf...
Methods for forming high quality re-crystallizing polysilicon films are being actively studied due t...
The invention is a simple method to fabricate multiple layers of transistors with one on top of each...
Aligned polysilicon grain boundaries effects on the performance of the MOSFET fabricated on Large-gr...
Polysilicon with large grain size of the order of several ten's of micron were obtained by combining...
A methodology to design high-performance MOSFETs on the large-grain polysilicon-on-insulator (LPSOI)...
The characteristics of thermal polyoxide grown on Large-grain Polysilicon-On-Insulator (LPSOI) forme...
Effects of process annealing temperature on Metal-Induced-Lateral-Crystallization (MILC) growth rate...
Metal-Induced-Lateral-Crystallization (MILC) followed by high temperature annealing has been used fo...
Large grain (> 10 um) poly-Si film has been formed from nickel Metal Induced Lateral Crystallization...
A novel metal-induced lateral crystallization (MILC) technique, involving a low temperature crystall...