The induced changes of the flatband voltage by the location of holes in a silicon-rich oxide (SRO) film sandwiched between two thin SiO 2 layers [used as gate dielectric in a metal-oxide-semiconductor (MOS) capacitor] can be used as the two states of a memory cell. The principle of operation is based on holes permanently trapped in the SRO layer and reversibly moved up and down, close to the metal and the semiconductor, in order to obtain the two logic states of the memory. The concept has been verified by suitable experiments on MOS structures. The device exhibits an excellent endurance behavior and, due to the low mobility of the holes at low field in the SRO layer, a much longer refresh time compared to conventiona...
Presently, nearly 109 metal-oxide-semiconductorfield- effect-transistors (MOSFETs) are used in a sin...
We propose and investigate a metal oxide heterostructure (MOH) based resistive switching (RS) device...
An Al-rich Al2O3 thin film was deposited on a p-tpye silicon substrate by radio frequency sputtering...
To form crystalline Si dots embedded in SiO2, we have deposited thin films of silicon-rich oxide (SR...
To form crystalline Si dots embedded in SiO2, we have deposited thin films of silicon rich oxide (SR...
[[abstract]]© 1999 Institute of Electrical and Electronics Engineers-A memory device using silicon r...
[[abstract]]A memory device using silicon rich oxide (SRO) as the charge trapping layer for dynamic ...
The material and electrical properties of MOS memory capacitors composed of single- and dual-layer n...
Silicon quantum dots have been deposited on top of a 3-nm tunnel oxide by Low Pressure Chemical Vapo...
Metal-oxide-semiconductor capacitors in which the gate oxide has been replaced with a silicon rich o...
Current advances in the study of insulating materials, in particular SiO2 and Si-rich SiO2, have led...
By electrical measurements we investigate the charge trapping and the charge transport in MOS capaci...
Part 18: Electronic MaterialsInternational audiencePlanar diodes fabricated with nano-structured sil...
We experimentally demonstrate that metal/oxide/floating-Schottky junction has multiple effective cap...
Convergent lines of evidence are reviewed which show that near-interfacial oxide traps (border traps...
Presently, nearly 109 metal-oxide-semiconductorfield- effect-transistors (MOSFETs) are used in a sin...
We propose and investigate a metal oxide heterostructure (MOH) based resistive switching (RS) device...
An Al-rich Al2O3 thin film was deposited on a p-tpye silicon substrate by radio frequency sputtering...
To form crystalline Si dots embedded in SiO2, we have deposited thin films of silicon-rich oxide (SR...
To form crystalline Si dots embedded in SiO2, we have deposited thin films of silicon rich oxide (SR...
[[abstract]]© 1999 Institute of Electrical and Electronics Engineers-A memory device using silicon r...
[[abstract]]A memory device using silicon rich oxide (SRO) as the charge trapping layer for dynamic ...
The material and electrical properties of MOS memory capacitors composed of single- and dual-layer n...
Silicon quantum dots have been deposited on top of a 3-nm tunnel oxide by Low Pressure Chemical Vapo...
Metal-oxide-semiconductor capacitors in which the gate oxide has been replaced with a silicon rich o...
Current advances in the study of insulating materials, in particular SiO2 and Si-rich SiO2, have led...
By electrical measurements we investigate the charge trapping and the charge transport in MOS capaci...
Part 18: Electronic MaterialsInternational audiencePlanar diodes fabricated with nano-structured sil...
We experimentally demonstrate that metal/oxide/floating-Schottky junction has multiple effective cap...
Convergent lines of evidence are reviewed which show that near-interfacial oxide traps (border traps...
Presently, nearly 109 metal-oxide-semiconductorfield- effect-transistors (MOSFETs) are used in a sin...
We propose and investigate a metal oxide heterostructure (MOH) based resistive switching (RS) device...
An Al-rich Al2O3 thin film was deposited on a p-tpye silicon substrate by radio frequency sputtering...