Electrical Characteristics of Oxidized∕Nitrided Zr Thin Film on Si

Wong, Yew Hoong; Cheong, Kuan Yew

doi:10.1149/2.106112jes

Cited by 26 publications

(23 citation statements)

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“…As reported by Li et al, 35 the dielectric constant of ZrO 2 on Si substrate lies in between 7.5-55.0. Based on our previous report, 24 the dielectric constant of ZrO 2 on Si substrate is in the range of 10.58-21.82. It is strongly dependent on the oxide-substrate interface characteristics, nature of the substrate, electrode material, and oxide deposition method.…”

Section: Resultsmentioning

confidence: 96%

“…7 Of numerous high-κ gate oxides, ZrO 2 has attracted much attention owing to its fascinating properties such as high κ value (22)(23)(24)(25), large energy bandgap (5.8-7.8 eV), and easily stabilized in the form of cubic or tetragonal polymorphs, which may further enhance its effective κ value. 1,2,[23][24][25] Generally, the interfaces of high-κ gate oxide/semiconductor are often contemplated as non-ideal due to the presence of interface defects. These defects may be originated from surface-structural defects, oxidation-induced defects, or radiation-induced defects.…”

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confidence: 99%

“…As a result, good electrical properties of a MOS device can be attained. In our previous works, [23][24][25] bulk ZrO 2 and IL of Zr-silicate oxynitride (ZrSiON) have been formed on Si substrate via simultaneous thermal oxidation and nitridation of sputtered Zr on Si using N 2 O gas. The nitridation effect in the process has provided improved electrical properties to the MOS device.…”

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confidence: 99%

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Metal-Oxide-Semiconductor Characteristics of Zr-Oxynitride Thin Film on 4H-SiC Substrate

Wong

Cheong

2012

J. Electrochem. Soc.

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Sputtered Zr on 4H-SiC substrate and followed by simultaneous oxidation and nitridation in nitrous oxide ambient at various temperatures (400-900 • C) for 15 min have been systematically investigated. The structural and electrical properties of the samples were evaluated. Energy-filtered transmission electron micrographs demonstrated that an interfacial layer (IL) of 1.44 to 4.20 nm had been formed in between a bulk oxide of 14.63 to 18.53 nm and the SiC substrate, depending on the temperature. The calculated activation energies for the bulk oxide, which was Zr-oxynitride, IL, and total oxide growth were −0.0335 eV, 0.1543 eV, and −0.0078 eV, respectively. Supportive results were obtained from X-ray diffractometer, Raman spectrometer, and atomic force microscope. The electrical results revealed that 500 • C oxidized/nitrided sample has demonstrated the highest breakdown field and reliability. This was attributed to the lowest total interface trap, effective oxide charge, and highest barrier height between conduction band edge of oxynitride and semiconductor.The current progress in semiconductor industry is mainly focusing in four parallel directions, which include downscaling of circuit elements on an inexpressible scale, reducing its power consumption, increasing operation speed, and tolerance-temperature range. 1, 2 To realize next generation metal-oxide-semiconductor (MOS)-based devices for high power and/or high radiation, integration of functional gate oxides on wide bandgap (WBG) semiconductors are of interest. 3-7 Silicon carbide (SiC) has several merits over other WBG semiconductors due to its commercial availability and ability to grow native oxide (SiO 2 ). 8, 9 Amongst many SiC polytypes, 10, 11 4H-SiC offers a wide bandgap of 3.26 eV, high breakdown field strength of ∼3 MV/cm, high saturation electron drift velocity of ∼2×10 7 cm/s, and high thermal conductivity of ∼3.7 W/cm • C. 9, 12, 13 Demonstration of these properties makes SiC-based MOS devices potentially suited for operation under harsh conditions.In order to fabricate these devices, the gate oxide must be able to bear a high transverse electric field and to possess a good reliability, so that leakage current through the gate oxide could be minimized. To date, thermally nitrided-SiO 2 on SiC is still considered as the first choice gate oxide. 7, 14-21 Nonetheless, its low dielectric constant (κ) value of 3.9, as compared to SiC with κ value of 10, could cause oxide breakdown and reliability issues. According to Gauss law: 22The high electric field strength in SiC of ∼3 MV/cm, would give a high electric field of ∼7.69 MV/cm in SiO 2 , in which, it is equivalent to a factor of ∼2.56 times higher electric field being imposed on the gate oxide than on the SiC. Consequently, the gate oxide may electrically break down much earlier than the SiC substrate thus depletes the objective of using SiC as the primer substrate for high power, high temperature, and/or high radiation applications. An approach to circumvent this is to supersede the relatively lo...

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Section: Resultsmentioning

confidence: 96%

mentioning

confidence: 99%

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confidence: 99%

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Metal-Oxide-Semiconductor Characteristics of Zr-Oxynitride Thin Film on 4H-SiC Substrate

Wong

Cheong

2012

J. Electrochem. Soc.

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“…The lowest total interface-trap density obtained in this experiment is w3.6 Â 10 12 cm À2 , which is obtained from the film oxidized/ nitrided in 10% N 2 O. (10) In higher N 2 O concentrations, i.e. 70 and 100%, all characterized MOS capacitors has revealed a one-step oxide breakdown (E HDB ) as being shown in the JeE plot, while a two-step oxide breakdown (E B and E HDB ) is being recorded for all characterized MOS capacitors oxidized/nitrided in further diluted N 2 O (10 and 30%).…”

Section: Cev Characteristicsmentioning

confidence: 59%

“…As reported by Li et al [13], the dielectric constant of ZrO 2 on Si substrate ranges in between 7.5 and 55.0. Based on our previous report [10], the dielectric constant of ZrO 2 on Si substrate lies in the range of 10.58e21.82. Therefore, the value is very much dependent on the oxideesubstrate interface characteristics, nature of the substrate, electrode material, and oxide deposition method.…”

Section: Cev Characteristicsmentioning

confidence: 89%

Properties of thermally oxidized and nitrided Zr-oxynitride thin film on 4H–SiC in diluted N2O ambient

Wong

Cheong

2012

Materials Chemistry and Physics

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Formation and characterization of holmium oxide on germanium‐based metal‐oxide‐semiconductor capacitor

Onik

Hawari

Sabri

et al. 2021

Intl J of Energy Research

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The influence of different thermal oxidation/nitridation durations (5,10,15, and 20 minutes) at 400 C for transforming metallic Ho sputtered on Ge substrate in N 2 O gas ambient have been systemically investigated to develop Ho 2 O 3 /Ge based on metal-oxide-semiconductor (MOS) device. The structural and chemical properties of the film were characterized using X-ray diffraction spectroscopy, X-ray photoelectron spectroscopy (XPS), and high-resolution transmission electron microscopy. Cubic-Ho 2 O 3 dielectric layer has been formed along with sandwiched interfacial layer (IL) between substrate Ge and high-k interface comprising tetragonal-GeO 2 , GeO x , and cubic-Ge 3 N 4 compounds. Energy band alignment for Ho 2 O 3 /IL/Ge MOS stack has been determined from XPS spectrum where 10-minute sample exhibited maximum conduction band offset, ΔE c~2 .47 eV and valance band offset, ΔE v~4 .67 eV, inducing lower leakage current density, J~10 −5 A cm −2 at the higher electrical breakdown, E BD~8 .59 MV cm −1 . The electrical results of this sample also rev-

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Electrical Characteristics of Oxidized∕Nitrided Zr Thin Film on Si

Cited by 26 publications

References 50 publications

Metal-Oxide-Semiconductor Characteristics of Zr-Oxynitride Thin Film on 4H-SiC Substrate

Metal-Oxide-Semiconductor Characteristics of Zr-Oxynitride Thin Film on 4H-SiC Substrate

Properties of thermally oxidized and nitrided Zr-oxynitride thin film on 4H–SiC in diluted N2O ambient

Formation and characterization of holmium oxide on germanium‐based metal‐oxide‐semiconductor capacitor

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