Chih-Hao Dai scite author profile

Chih-Hao Dai

5Publications

89Citation Statements Received

79Citation Statements Given

How they've been cited

130

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Affiliations

National Sun Yat-sen University

Publications

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NBTI Degradation in LTPS TFTs Under Mechanical Tensile Strain

Lin

Chen

Chang

et al. 2011

IEEE Electron Device Lett.

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This letter investigates the negative-bias temperature instability (NBTI) degradation of p-channel low-temperature polycrystalline-silicon thin-film transistors (LTPS TFTs) under mechanical tensile stress. Experimental results reveal that the interface state density N it and grain boundary trap density N trap of tensile-strained LTPS TFTs are more pronounced than those of unstrained LTPS TFTs. Extracted density of states and conduction activation energy E a both show increases due to the strained Si-Si bonds, which implies that strained Si-Si bonds are able to react with dissociated H during NBTI stress. Therefore, NBTI degradation is more significant after tensile strain than in an unstrained condition.

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Substrate current enhancement in 65 nm metal-oxide-silicon field-effect transistor under external mechanical stress

et al. 2009

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Hot carrier effect on gate-induced drain leakage current in high-k/metal gate n-channel metal-oxide-semiconductor field-effect transistors

Dai¹,

Chang²,

Chu³

et al. 2011

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This paper investigates the channel hot carrier stress (CHCS) effects on gate-induced drain leakage (GIDL) current in high-k/metal-gate n-type metal-oxide-semiconductor field effect transistors. It was found that the behavior of GIDL current during CHCS is dependent upon the interfacial layer (IL) oxide thickness of high-k/metal-gate stacks. For a thinner IL, the GIDL current gradually decreases during CHCS, a result contrary to that found in a device with thicker IL. Based on the variation of GIDL current at different stress conditions, the trap-assisted band-to-band hole injection model is proposed to explain the different behavior of GIDL current for different IL thicknesses.

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On the Origin of Gate-Induced Floating-Body Effect in PD SOI p-MOSFETs

Dai

Chang

Chu

et al. 2011

IEEE Electron Device Lett.

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This letter systematically investigates the origin of gate-induced floating-body effect (GIFBE) in partially depleted silicon-on-insulator p-type MOSFETs. The experimental results indicate that GIFBE causes a reduction in the electrical oxide field, leading to an underestimate of negative-bias temperature instability degradation. This can be partially attributed to the electrons tunneling from the process-induced partial n + polygate. However, based on different operation conditions, we found that the dominant origin of electrons was strongly dependent on holes in the inversion layer under source/drain grounding. This suggests that the mechanism of GIFBE at higher voltages is dominated by the proposed anode electron injection model, rather than the electron valence band tunneling widely accepted as the mechanism for n-MOSFETs. Index Terms-EVB tunneling, gate-induced floating-body effect (GIFBE), negative-bias temperature instability (NBTI), silicon-on-insulator (SOI).

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Impact of Mechanical Strain on GIFBE in PD SOI p-MOSFETs as Indicated From NBTI Degradation

Chang

Dai

et al. 2012

IEEE Electron Device Lett.

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This letter investigates the impact of mechanical strain on gate-induced floating-body effect in partially depleted silicon-on-insulator p-channel metal-oxide-semiconductor fieldeffect transistors. The strained FB device has less NBTI degradation than unstrained devices. This behavior can be attributed to the fact that more electron accumulation induced by strain effect reduces the electric oxide field significantly during NBTI stress. Analysis of the body current (I B ) under source/drain grounded and floating operation indicates an increase in the anode electron injection and electron tunneling from conduction band which occur at the partial n + poly-Si gate and Si substrate, respectively. This phenomenon can be attributed to the bandgap narrowing which has been induced by the strain effect. Index Terms-Gate-induced floating-body effect (GIFBE), negative bias temperature instability (NBTI), silicon-on-insulator (SOI) MOSFETs, strained silicon.

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Chih-Hao Dai

NBTI Degradation in LTPS TFTs Under Mechanical Tensile Strain

Substrate current enhancement in 65 nm metal-oxide-silicon field-effect transistor under external mechanical stress

Hot carrier effect on gate-induced drain leakage current in high-k/metal gate n-channel metal-oxide-semiconductor field-effect transistors

On the Origin of Gate-Induced Floating-Body Effect in PD SOI p-MOSFETs

Impact of Mechanical Strain on GIFBE in PD SOI p-MOSFETs as Indicated From NBTI Degradation

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