Surface passivation of CdZnTe wafer

Xiao Qin Wang; Wan Qi Jie; An Ning Zhou; Huan Yong Li

Surface passivation of CdZnTe wafer

Xiao Qin Wang, Wan Qi Jie, An Ning Zhou, Huan Yong Li

School of Materials Sience and Engineering

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

2 Scopus citations

Abstract

CdZnTe wafer was passivated with NH₄F/H₂O₂ solution after the chemical polishing with Br₂-MeOH solution. The electricity property was characterized with I-V measurement and the surface composition was quantitatively measured with XPS analyses. I-V measurement showed that the CZT wafer surface was significantly passivated after the treatment. The dropping rate of current reduced with increasing the bias voltage. At the bias voltage of 10 V, the current dropping rate was the highest, about 73.7%. The critical field intensity was about 333 V/cm, at which I-V curves began to deviate from ohm law. Through XPS analyses, it was found that about 79.28% of Te in CZT surface layer was oxided to form TeO₂. The depth of oxided layer was about 3.15 nm. The composition of passivated surface became more close to the stoichiometric one.

Original language	English
Pages (from-to)	856-858
Number of pages	3
Journal	Gongneng Cailiao/Journal of Functional Materials
Volume	36
Issue number	6
State	Published - Jun 2005

Keywords

CdZnTe
Passivation
Surface leakage current
TeO

Cite this

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title = "Surface passivation of CdZnTe wafer",

abstract = "CdZnTe wafer was passivated with NH4F/H2O2 solution after the chemical polishing with Br2-MeOH solution. The electricity property was characterized with I-V measurement and the surface composition was quantitatively measured with XPS analyses. I-V measurement showed that the CZT wafer surface was significantly passivated after the treatment. The dropping rate of current reduced with increasing the bias voltage. At the bias voltage of 10 V, the current dropping rate was the highest, about 73.7%. The critical field intensity was about 333 V/cm, at which I-V curves began to deviate from ohm law. Through XPS analyses, it was found that about 79.28% of Te in CZT surface layer was oxided to form TeO2. The depth of oxided layer was about 3.15 nm. The composition of passivated surface became more close to the stoichiometric one.",

keywords = "CdZnTe, Passivation, Surface leakage current, TeO",

author = "Wang, {Xiao Qin} and Jie, {Wan Qi} and Zhou, {An Ning} and Li, {Huan Yong}",

year = "2005",

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journal = "Gongneng Cailiao/Journal of Functional Materials",

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TY - JOUR

T1 - Surface passivation of CdZnTe wafer

AU - Wang, Xiao Qin

AU - Jie, Wan Qi

AU - Zhou, An Ning

AU - Li, Huan Yong

PY - 2005/6

Y1 - 2005/6

N2 - CdZnTe wafer was passivated with NH4F/H2O2 solution after the chemical polishing with Br2-MeOH solution. The electricity property was characterized with I-V measurement and the surface composition was quantitatively measured with XPS analyses. I-V measurement showed that the CZT wafer surface was significantly passivated after the treatment. The dropping rate of current reduced with increasing the bias voltage. At the bias voltage of 10 V, the current dropping rate was the highest, about 73.7%. The critical field intensity was about 333 V/cm, at which I-V curves began to deviate from ohm law. Through XPS analyses, it was found that about 79.28% of Te in CZT surface layer was oxided to form TeO2. The depth of oxided layer was about 3.15 nm. The composition of passivated surface became more close to the stoichiometric one.

AB - CdZnTe wafer was passivated with NH4F/H2O2 solution after the chemical polishing with Br2-MeOH solution. The electricity property was characterized with I-V measurement and the surface composition was quantitatively measured with XPS analyses. I-V measurement showed that the CZT wafer surface was significantly passivated after the treatment. The dropping rate of current reduced with increasing the bias voltage. At the bias voltage of 10 V, the current dropping rate was the highest, about 73.7%. The critical field intensity was about 333 V/cm, at which I-V curves began to deviate from ohm law. Through XPS analyses, it was found that about 79.28% of Te in CZT surface layer was oxided to form TeO2. The depth of oxided layer was about 3.15 nm. The composition of passivated surface became more close to the stoichiometric one.

KW - CdZnTe

KW - Passivation

KW - Surface leakage current

KW - TeO

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M3 - 文章

AN - SCOPUS:21844443357

SN - 1001-9731

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JO - Gongneng Cailiao/Journal of Functional Materials

JF - Gongneng Cailiao/Journal of Functional Materials

IS - 6

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Surface passivation of CdZnTe wafer

Abstract

Keywords

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