Nanoscale and device level electrical behavior of annealed ALD Hf-based gate oxide stacks grown with different precursors

Albin Bayerl; Mario Lanza; Lidia Aguilera; Marc Porti; Montserrat Nafría; Xavier Aymerich; Stefan De Gendt

doi:10.1016/j.microrel.2013.02.005

Nanoscale and device level electrical behavior of annealed ALD Hf-based gate oxide stacks grown with different precursors

Albin Bayerl, Mario Lanza, Lidia Aguilera, Marc Porti, Montserrat Nafría, Xavier Aymerich, Stefan De Gendt

Departament d'Enginyeria Electrònica

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

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One of the main factors influencing the electrical properties of Atomic Layer Deposited (ALD) high-k materials is the precursor used during the growing process, which must provide good thermal stability to withstand the high temperatures used during the manufacturing process. In this work, the electrical properties of ALD-grown HfO2 ultra-thin films using different precursors were investigated at both, the nanoscale (using the Conductive Atomic Force Microscope, CAFM) and at the device level, which can give complementary information about the quality of the high-k layer. The effect of an annealing process above 1000 °C (before or after the gate electrode deposition) was also considered. © 2013 Elsevier Ltd. All rights reserved.

Idioma original	Anglès
Pàgines (de-a)	867-871
Revista	Microelectronics Reliability
Volum	53
DOIs	https://doi.org/10.1016/j.microrel.2013.02.005
Estat de la publicació	Publicada - 25 de març 2013

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title = "Nanoscale and device level electrical behavior of annealed ALD Hf-based gate oxide stacks grown with different precursors",

abstract = "One of the main factors influencing the electrical properties of Atomic Layer Deposited (ALD) high-k materials is the precursor used during the growing process, which must provide good thermal stability to withstand the high temperatures used during the manufacturing process. In this work, the electrical properties of ALD-grown HfO2 ultra-thin films using different precursors were investigated at both, the nanoscale (using the Conductive Atomic Force Microscope, CAFM) and at the device level, which can give complementary information about the quality of the high-k layer. The effect of an annealing process above 1000 °C (before or after the gate electrode deposition) was also considered. {\textcopyright} 2013 Elsevier Ltd. All rights reserved.",

author = "Albin Bayerl and Mario Lanza and Lidia Aguilera and Marc Porti and Montserrat Nafr{\'i}a and Xavier Aymerich and Gendt, \{Stefan De\}",

year = "2013",

month = mar,

day = "25",

doi = "10.1016/j.microrel.2013.02.005",

language = "English",

volume = "53",

pages = "867--871",

journal = "Microelectronics Reliability",

issn = "0026-2714",

publisher = "Elsevier Limited",

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TY - JOUR

T1 - Nanoscale and device level electrical behavior of annealed ALD Hf-based gate oxide stacks grown with different precursors

AU - Bayerl, Albin

AU - Lanza, Mario

AU - Aguilera, Lidia

AU - Porti, Marc

AU - Nafría, Montserrat

AU - Aymerich, Xavier

AU - Gendt, Stefan De

PY - 2013/3/25

Y1 - 2013/3/25

N2 - One of the main factors influencing the electrical properties of Atomic Layer Deposited (ALD) high-k materials is the precursor used during the growing process, which must provide good thermal stability to withstand the high temperatures used during the manufacturing process. In this work, the electrical properties of ALD-grown HfO2 ultra-thin films using different precursors were investigated at both, the nanoscale (using the Conductive Atomic Force Microscope, CAFM) and at the device level, which can give complementary information about the quality of the high-k layer. The effect of an annealing process above 1000 °C (before or after the gate electrode deposition) was also considered. © 2013 Elsevier Ltd. All rights reserved.

AB - One of the main factors influencing the electrical properties of Atomic Layer Deposited (ALD) high-k materials is the precursor used during the growing process, which must provide good thermal stability to withstand the high temperatures used during the manufacturing process. In this work, the electrical properties of ALD-grown HfO2 ultra-thin films using different precursors were investigated at both, the nanoscale (using the Conductive Atomic Force Microscope, CAFM) and at the device level, which can give complementary information about the quality of the high-k layer. The effect of an annealing process above 1000 °C (before or after the gate electrode deposition) was also considered. © 2013 Elsevier Ltd. All rights reserved.

UR - https://www.scopus.com/pages/publications/84879841832

U2 - 10.1016/j.microrel.2013.02.005

DO - 10.1016/j.microrel.2013.02.005

M3 - Article

SN - 0026-2714

VL - 53

SP - 867

EP - 871

JO - Microelectronics Reliability

JF - Microelectronics Reliability

ER -

Nanoscale and device level electrical behavior of annealed ALD Hf-based gate oxide stacks grown with different precursors

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