Silicon had been a dominant material in the Very Large Scale Integration (VLSI) technology which are commonly used in microprocessors and memory devices. Most III- IV compound semiconductor are direct bandgap materials and are commonly used in optoelectronic application such as in Light Emitting Diodes (LEDs) and photodiodes. It will ideal to integrate both materials into a single bulk substrate which will allow the integrated bulk to conceive significant advantages such as reduction of resistive- capacitive (RC) delay. Thus, allowing further advancement in the optoelectronic development In this work, 2 inch Silicon and Indium Phosphide (InP) wafers were monolithic integrated using plasma assisted direct wafer bonding techniques coupled wit...
This project concerns the measurements and characterization of GaAs/Si direct wafer bonding and devi...
The main aim of this work is to transfer the epitaxially grown, indium phosphide based material stru...
We report a low-temperature process for covalent bonding of thermal SiO2 to plasma-enhanced chemical...
Silicon had been a dominant material in the Very Large Scale Integration (VLSI) technology which are...
Direct semiconductor wafer bonding has emerged as a technology to meet the demand foradditional flex...
Low temperature (200◦C) direct bonding of InP and Si3N4 coated silicon wafers using oxygen plasma su...
While Silicon remains the dominant material today in matured very-large-scale-integration technology...
The breakthrough of directwafer bondingwas achieved with siliconon-insulator (SOI) allowing for high...
The present work seeks to demonstrate the elegance and simplicity of monolithic integration via plas...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Silicon, being the most mature technology in the electronics industry, is facing limitations and cha...
In this paper the authors report on the direct bonding of compound semiconductors and silicon anneal...
Review paper on heterogenous integration of III-V devices on Si via direct wafer bonding
Direct wafer bonding is a method for fabricating advanced substrates for microelectromechanical syst...
Direct chip-to-wafer bonding of Indium Phosphide (InP) on Silicon (Si) using Aluminium Oxide (Al2O3)...
This project concerns the measurements and characterization of GaAs/Si direct wafer bonding and devi...
The main aim of this work is to transfer the epitaxially grown, indium phosphide based material stru...
We report a low-temperature process for covalent bonding of thermal SiO2 to plasma-enhanced chemical...
Silicon had been a dominant material in the Very Large Scale Integration (VLSI) technology which are...
Direct semiconductor wafer bonding has emerged as a technology to meet the demand foradditional flex...
Low temperature (200◦C) direct bonding of InP and Si3N4 coated silicon wafers using oxygen plasma su...
While Silicon remains the dominant material today in matured very-large-scale-integration technology...
The breakthrough of directwafer bondingwas achieved with siliconon-insulator (SOI) allowing for high...
The present work seeks to demonstrate the elegance and simplicity of monolithic integration via plas...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Silicon, being the most mature technology in the electronics industry, is facing limitations and cha...
In this paper the authors report on the direct bonding of compound semiconductors and silicon anneal...
Review paper on heterogenous integration of III-V devices on Si via direct wafer bonding
Direct wafer bonding is a method for fabricating advanced substrates for microelectromechanical syst...
Direct chip-to-wafer bonding of Indium Phosphide (InP) on Silicon (Si) using Aluminium Oxide (Al2O3)...
This project concerns the measurements and characterization of GaAs/Si direct wafer bonding and devi...
The main aim of this work is to transfer the epitaxially grown, indium phosphide based material stru...
We report a low-temperature process for covalent bonding of thermal SiO2 to plasma-enhanced chemical...