A charge transport study in diamond, surface passivated by high-k dielectric oxides

Kiran Kumar Kovi; Saman Majdi; Markus Gabrysch; Jan Isberg

doi:10.1063/1.4901961

A charge transport study in diamond, surface passivated by high-k dielectric oxides

Kiran Kumar Kovi
, Saman Majdi
, Markus Gabrysch
, Jan Isberg

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The recent progress in the growth of high-quality single-crystalline diamond films has sparked interest in the realization of efficient diamond power electronic devices. However, finding a suitable passivation is essential to improve the reliability and electrical performance of devices. In the current work, high-k dielectric materials such as aluminum oxide and hafnium oxide were deposited by atomic layer deposition on intrinsic diamond as a surface passivation layer. The hole transport properties in the diamond films were evaluated and compared to unpassivated films using the lateral time-of-flight technique. An enhancement of the near surface hole mobility in diamond films of up to 27% is observed when using aluminum oxide passivation.

Original language	English (US)
Article number	202102
Journal	Applied Physics Letters
Volume	105
Issue number	20
DOIs	https://doi.org/10.1063/1.4901961
State	Published - Nov 17 2014
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.4901961

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title = "A charge transport study in diamond, surface passivated by high-k dielectric oxides",

abstract = "The recent progress in the growth of high-quality single-crystalline diamond films has sparked interest in the realization of efficient diamond power electronic devices. However, finding a suitable passivation is essential to improve the reliability and electrical performance of devices. In the current work, high-k dielectric materials such as aluminum oxide and hafnium oxide were deposited by atomic layer deposition on intrinsic diamond as a surface passivation layer. The hole transport properties in the diamond films were evaluated and compared to unpassivated films using the lateral time-of-flight technique. An enhancement of the near surface hole mobility in diamond films of up to 27\% is observed when using aluminum oxide passivation.",

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AU - Majdi, Saman

AU - Gabrysch, Markus

AU - Isberg, Jan

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Y1 - 2014/11/17

N2 - The recent progress in the growth of high-quality single-crystalline diamond films has sparked interest in the realization of efficient diamond power electronic devices. However, finding a suitable passivation is essential to improve the reliability and electrical performance of devices. In the current work, high-k dielectric materials such as aluminum oxide and hafnium oxide were deposited by atomic layer deposition on intrinsic diamond as a surface passivation layer. The hole transport properties in the diamond films were evaluated and compared to unpassivated films using the lateral time-of-flight technique. An enhancement of the near surface hole mobility in diamond films of up to 27% is observed when using aluminum oxide passivation.

AB - The recent progress in the growth of high-quality single-crystalline diamond films has sparked interest in the realization of efficient diamond power electronic devices. However, finding a suitable passivation is essential to improve the reliability and electrical performance of devices. In the current work, high-k dielectric materials such as aluminum oxide and hafnium oxide were deposited by atomic layer deposition on intrinsic diamond as a surface passivation layer. The hole transport properties in the diamond films were evaluated and compared to unpassivated films using the lateral time-of-flight technique. An enhancement of the near surface hole mobility in diamond films of up to 27% is observed when using aluminum oxide passivation.

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ER -

A charge transport study in diamond, surface passivated by high-k dielectric oxides

Abstract

All Science Journal Classification (ASJC) codes

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