Topics
silicon dioxideChemical substance
silicon waferManga
aluminum oxideChemical substance
nitrideChemical compound
Material integration for the formation of advanced silicon-on-insulator materials by wafer bonding and etch-back is discussed. Wafer bonding allows the combining of materials that it is not possible to grow on top of each other by any other technique. In our experiments, polycrystalline diamond, aluminum nitride or aluminum oxide films with thickness of 0.1-5 μm were deposited on silicon wafers. Bonding experiments were made with these films to bare silicon wafers with the goal of forming silicon-on-insulator structures with buried films of polycrystalline diamond, aluminum nitride or aluminum oxide. These silicon-on-insulator structures are intended to address self-heating effects in conventional silicon-on-insulator materials with buried ...
Aluminum oxide films deposited by low temperature atomic layer epitaxy were studied as an alternativ...
The chemical stability of polycrystalline diamond subjected to common silicon device integrated circ...
Direct wafer bonding is a method for fabricating advanced substrates for microelectromechanical syst...
Material integration for the formation of advanced silicon-on-insulator materials by wafer bonding a...
The wafer bonding technology offers a unique opportunity to combine different materials. This has be...
This paper deals with the use of reactively sputtered aluminum nitride (AlN) films as insulators for...
Diamond-on-insulator (DOI) wafers featuring ultrananocrystalline diamond are studied via atomic forc...
Pan Stanford Series on Intelligent NanosystemsISBN 9789814411424 - CAT# N10798 pour le livreInternat...
An overview is given on the use of wafer bonding for formation of Silicon-On-Insulator (SOI) materia...
Silicon-on-insulator (SOI) wafers made by direct wafer bonding are widely used as starting substrate...
We propose to replace the buried SiO2 layer in silicon-on-insulator with a plasma synthesized diamon...
Silicon-on-insulator (SOI) substrates have become important starting materials for IC and MEMS fabri...
Bonding and Etchback Silicon on Insulator wafers were successfully developed at the Rochester Instit...
Atomic layer deposition (ALD) is a method to grow conformal thin films. It is a chemical vapor depos...
In MEMS industry, silicon-on-insulator (SOI) wafers are gaining ground from blank silicon wafers as ...
Aluminum oxide films deposited by low temperature atomic layer epitaxy were studied as an alternativ...
The chemical stability of polycrystalline diamond subjected to common silicon device integrated circ...
Direct wafer bonding is a method for fabricating advanced substrates for microelectromechanical syst...
Material integration for the formation of advanced silicon-on-insulator materials by wafer bonding a...
The wafer bonding technology offers a unique opportunity to combine different materials. This has be...
This paper deals with the use of reactively sputtered aluminum nitride (AlN) films as insulators for...
Diamond-on-insulator (DOI) wafers featuring ultrananocrystalline diamond are studied via atomic forc...
Pan Stanford Series on Intelligent NanosystemsISBN 9789814411424 - CAT# N10798 pour le livreInternat...
An overview is given on the use of wafer bonding for formation of Silicon-On-Insulator (SOI) materia...
Silicon-on-insulator (SOI) wafers made by direct wafer bonding are widely used as starting substrate...
We propose to replace the buried SiO2 layer in silicon-on-insulator with a plasma synthesized diamon...
Silicon-on-insulator (SOI) substrates have become important starting materials for IC and MEMS fabri...
Bonding and Etchback Silicon on Insulator wafers were successfully developed at the Rochester Instit...
Atomic layer deposition (ALD) is a method to grow conformal thin films. It is a chemical vapor depos...
In MEMS industry, silicon-on-insulator (SOI) wafers are gaining ground from blank silicon wafers as ...
Aluminum oxide films deposited by low temperature atomic layer epitaxy were studied as an alternativ...
The chemical stability of polycrystalline diamond subjected to common silicon device integrated circ...
Direct wafer bonding is a method for fabricating advanced substrates for microelectromechanical syst...
Add to ORKG