K. Choi scite author profile

K. Choi

4Publications

37Citation Statements Received

9Citation Statements Given

How they've been cited

108

How they cite others

Affiliations

Qurient (South Korea)

Publications

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Effective work function modification of atomic-layer-deposited-TaN film by capping layer

Choi¹,

Alshareef²,

Wen³

et al. 2006

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We demonstrate that the metallic capping layer has a strong impact on the effective work function (EWF) of the metal gate. Specifically, the EWF of atomic-layer-deposited (ALD)-TaN could be increased from 4.5to4.8eV with chemical-vapor-deposited-TiN capping, which is sufficient amount of work function modification for silicon on insulator based devices. A strong interdiffusion of Ti atoms into the ALD-TaN film is observed and correlated well with the changes in the EWF change. Ti capping experiments confirm that the Ti interdiffusion can actually modify the EWF of Ti/ALD-TaN stack.

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Growth mechanism of TiN film on dielectric films and the effects on the work function

Choi¹,

Lysaght²,

Alshareef

et al. 2005

Thin Solid Films

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The effect of metal thickness, overlayer and high-k surface treatment on the effective work function of metal electrode

Choi¹,

Wen²,

Alshareef³

et al.

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Effective work function tunability and interfacial reactions with underlying HfO2 layer of plasma-enhanced atomic layer deposited TaCxNy films

Park

Kim

Jang

et al. 2008

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This study examined the interfacial reaction of plasma-enhanced atomic layer deposited TaCxNy films with underlying SiO2 and HfO2 layers, as well as their effective work functions (EWFs). The adoption of Ar∕H2 plasma as a reducing agent suppressed the interfacial reactions resulting in a lower electrical thickness. However, it increased the interface state density due to the massive Ar+ plasma damage on the dielectric films. The interfacial reactions were suppressed in TaCxNy on HfO2 compared with that on SiO2. The EWF of TaCxNy with the H2 plasma and Ar∕H2 plasma on HfO2 was ∼4.9–5.2 and ∼4.6eV, respectively.

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K. Choi

Effective work function modification of atomic-layer-deposited-TaN film by capping layer

Growth mechanism of TiN film on dielectric films and the effects on the work function

The effect of metal thickness, overlayer and high-k surface treatment on the effective work function of metal electrode

Effective work function tunability and interfacial reactions with underlying HfO2 layer of plasma-enhanced atomic layer deposited TaCxNy films

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