S. T. Yan scite author profile

S. T. Yan

5Publications

80Citation Statements Received

32Citation Statements Given

How they've been cited

227

How they cite others

Affiliations

National Yang Ming Chiao Tung University, HannStar Display (Taiwan), InnoLux (Taiwan)

Publications

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Effective repair to ultra-low-k dielectric material (k∼2.0) by hexamethyldisilazane treatment

Mor¹,

Chang

Liu³

et al. 2002

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In situ real-time monitoring of profile evolution during plasma etching of mesoporous low-dielectric-constant SiO 2Patterning of fluorine-, hydrogen-, and carbon-containing SiO 2 -like low dielectric constant materials in highdensity fluorocarbon plasmas: Comparison with SiO 2 O 2 plasma ashing is commonly used to remove photoresist. The effect of O 2 plasma ashing on the porous organosilicate glass (CH 3 SiO 1.5 ) n , one of the spin-on materials, is investigated. O 2 plasma can oxidize the methyl groups in porous organosilicate glass ͑POSG͒, which leads to the formation of Si-OH groups. The hydrophilic Si-OH groups will induce moisture uptake so that electrical degradation will occur in POSG film. Pure hexamethyldisilazane ͑HMDS͒ vapor ͑100% HMDS͒ can react with the Si-OH groups in POSG film. It converts hydrophilic Si-OH groups into hydrophobic Si-O-Si(CH 3 ) 3 groups against moisture uptake. The leakage current density decreases by a factor of 2-3 and the dielectric constant decreases from 3.62 to 2.4 when O 2 plasma-damaged POSG undergoes HMDS treatment at 80°C for 15 min. Therefore, HMDS treatment is the effective technique to repair the electrical degradation to POSG film during photoresist stripping processing.

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Electron Charging and Discharging Effects of Tungsten Nanocrystals Embedded in Silicon Dioxide for Low-Voltage Nonvolatile Memory Technology

Chang

Liu

Yan

et al. 2005

Electrochem. Solid-State Lett.

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Spherical and well-separated tungsten nanocrystals embedded in the SiO 2 layer are demonstrated for the low-voltage nonvolatile memory device. The tungsten dots are formed, based on the thermal oxidation of the tungsten silicide, with a mean size and aerial density of 4.5 nm and 3.7 ϫ 10 11 /cm 2 , respectively. A pronounced capacitance-voltage hysteresis is observed with a memory window of 0.95 V under the 3 V programming voltage. Also, the endurance of the memory device is not degraded up to 10 6 write/erase cycles.

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A Novel Approach of Fabricating Germanium Nanocrystals for Nonvolatile Memory Application

Chang

Yan

Liu

et al. 2004

Electrochem. Solid-State Lett.

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UV Illumination Technique for Leakage Current Reduction in a-Si:H Thin-Film Transistors

Hwang

Chen³

et al. 2008

IEEE Trans. Electron Devices

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A distributed charge storage with GeO2 nanodots

Chang

Yan

Hsu

et al. 2004

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In this study, a distributed charge storage with GeO2 nanodots is demonstrated. The mean size and aerial density of the nanodots embedded in SiO2 are estimated to be about 5.5 nm and 4.3×1011 cm−2, respectively. The composition of the dots is also confirmed to be GeO2 by x-ray absorption near-edge structure analyses. A significant memory effect is observed through the electrical measurements. Under the low voltage operation of 5 V, the memory window is estimated to ∼0.45 V. Also, a physical model is proposed to demonstrate the charge storage effect through the interfacial traps of GeO2 nanodots.

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S. T. Yan

Effective repair to ultra-low-k dielectric material (k∼2.0) by hexamethyldisilazane treatment

Electron Charging and Discharging Effects of Tungsten Nanocrystals Embedded in Silicon Dioxide for Low-Voltage Nonvolatile Memory Technology

A Novel Approach of Fabricating Germanium Nanocrystals for Nonvolatile Memory Application

UV Illumination Technique for Leakage Current Reduction in a-Si:H Thin-Film Transistors

A distributed charge storage with GeO2 nanodots

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