2004
DOI: 10.1109/ted.2004.837011
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Nonvolatile Flash Memory Device Using Ge Nanocrystals Embedded in HfAlO High-<tex>$kappa$</tex>Tunneling and Control Oxides: Device Fabrication and Electrical Performance

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Cited by 98 publications
(33 citation statements)
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“…HfAlO was chosen as the tunneling and control oxides in the memory structures due to its promising performance for high-k gate dielectric application 23 and floating gate memory device application. 19 Before tunneling HfAlO film deposition, the p-Si͑100͒ substrate with a resistivity of 4 -6 ⍀ cm was first etched by a HF ͑10%͒ solution for 10 s. Then one very thin layer of HfAlO film was deposited on the Si substrate by the laser molecular beam epitaxy ͑MBE͒ technique using a KrF excimer laser ͑LPX 205i, Lambda Physik, 248 nm in wavelength, 30 ns in pulse width, operated at 1 Hz͒. The ratio of Hf to Al for the ceramic target is 1:2.…”
mentioning
confidence: 99%
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“…HfAlO was chosen as the tunneling and control oxides in the memory structures due to its promising performance for high-k gate dielectric application 23 and floating gate memory device application. 19 Before tunneling HfAlO film deposition, the p-Si͑100͒ substrate with a resistivity of 4 -6 ⍀ cm was first etched by a HF ͑10%͒ solution for 10 s. Then one very thin layer of HfAlO film was deposited on the Si substrate by the laser molecular beam epitaxy ͑MBE͒ technique using a KrF excimer laser ͑LPX 205i, Lambda Physik, 248 nm in wavelength, 30 ns in pulse width, operated at 1 Hz͒. The ratio of Hf to Al for the ceramic target is 1:2.…”
mentioning
confidence: 99%
“…For commonly studied flash memory devices, Si, 18 Ge, 19 and Si 1−x Ge x ͑Ref. 20͒ nanocrystals are widely used as the charge storage nodes and the memory structures are sandwiched with nanocrystals embedded in the SiO 2 or high-k dielectrics.…”
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confidence: 99%
“…Previously, many materials have been investigated for use as the storage node. These include semiconductors (Si [7] and Ge [8]) and metals (Au, Ag, Co, Ni, Pt, and W [3]- [5]). Issues with previous works include low WF, poor area coverage, and low number density of NC.…”
Section: Introductionmentioning
confidence: 99%
“…Nanocrystal (NC) flash [3]- [12] and charge trap flash (CTF) [13], [14] are considered as possible alternatives. CTF devices reported so far show good memory window but poor retention [13], [14], while the NC devices show poor memory window [4], [6], [11], [12]. Poor retention of CTF is linked to shallow trap depth of the nitride storage layer, which is an inherent material property and is difficult to control [14].…”
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confidence: 99%
“…Previously reported small memory window of the NC devices can be attributed to nonoptimal NC number density (ND), size distribution, small area coverage (AC), and low NC WF or high control dielectric (CD) leakage. A significant amount of work on NC-based Flash memory structures has focused on semiconductor NCs like Si [3] and Ge [4]. Issues with semiconductor-based NCs are small WF, quantum-confinement (QC)-related WF lowering, and poor control of NC size that result in poor overall performance of such devices.…”
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confidence: 99%