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Proximity Gettering Design of Hydrocarbon–Molecular–Ion–Implanted Silicon Wafers Using Dark Current Spectroscopy for CMOS Image Sensors

机译：CMOS图像传感器的暗电流光谱法对碳氢化合物分子离子注入的硅晶片进行吸杂设计

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摘要

We developed silicon epitaxial wafers with high gettering capability by using hydrocarbon–molecular–ion implantation. These wafers also have the effect of hydrogen passivation on process-induced defects and a barrier to out-diffusion of oxygen of the Czochralski silicon (CZ) substrate bulk during Complementary metal-oxide-semiconductor (CMOS) device fabrication processes. We evaluated the electrical device performance of CMOS image sensor fabricated on this type of wafer by using dark current spectroscopy. We found fewer white spot defects compared with those of intrinsic gettering (IG) silicon wafers. We believe that these hydrocarbon–molecular–ion–implanted silicon epitaxial wafers will improve the device performance of CMOS image sensors.

机译：我们通过使用碳氢分子离子注入技术开发了具有高吸杂能力的硅外延晶片。这些晶片在互补金属氧化物半导体（CMOS）器件制造过程中，还具有氢钝化对工艺引起的缺陷的影响，并阻止氧气扩散到直拉硅（CZ）衬底块体中。我们通过使用暗电流光谱法评估了在这种晶片上制造的CMOS图像传感器的电气设备性能。与内部吸气（IG）硅晶片相比，我们发现白点缺陷更少。我们相信，这些碳氢化合物，分子离子注入的硅外延晶片将改善CMOS图像传感器的器件性能。

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期刊名称 Sensors (Basel Switzerland)
作者
Kazunari Kurita; Takeshi Kadono; Satoshi Shigematsu; Ryo Hirose; Ryosuke Okuyama; Ayumi Onaka-Masada; Hidehiko Okuda; Yoshihiro Koga;
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作者单位

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年(卷),期 2019(19),9
年度 2019
页码 2073
总页数 20
原文格式 PDF
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关键词
gettering CMOS image sensor metal impurity white spot defects dark current silicon wafer dark current spectroscopy;

机译：吸气;CMOS图像传感器;金属杂质;白点缺陷;暗电流;硅晶片;暗电流光谱;

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专利

1. Proximity gettering of C3H5 carbon cluster ion-implanted silicon wafers for CMOS image sensors: Gettering effects of transition metal, oxygen, and hydrogen impurities (vol 55, 121301,2016) [J] . Kurita Kazunari, Kadono Takeshi, Okuyama Ryousuke, Japanese journal of applied physics . 2017,第4期

机译：用于CMOS图像传感器的C3H5碳簇离子注入硅晶片的近乎吸杂：过渡金属，氧和氢杂质的吸杂效应（第55卷，121301,2016）
2. Proximity gettering of C3H5 carbon cluster ion-implanted silicon wafers for CMOS image sensors: Gettering effects of transition metal, oxygen, and hydrogen impurities [J] . Kurita Kazunari, Kadono Takeshi, Okuyama Ryousuke, Japanese journal of applied physics . 2016,第12期

机译：用于CMOS图像传感器的C3H5碳簇离子注入硅晶片的近乎吸杂：过渡金属，氧和氢杂质的吸杂作用
3. A Review of Proximity Gettering Technology for CMOS Image Sensors Using Hydrocarbon Molecular Ion Implantation [J] . Kurita Kazunari, Kadono Takeshi, Okuyama Ryousuke, Sensors and materials . 2019,第6a2a期

机译：烃分子离子注入用于CMOS图像传感器的近程吸气技术综述
4. Proximity Gettering Design of Silicon Wafers Using Hydrocarbon Molecular Ion Implantation Technique for Advanced CMOS Image Sensors [C] . Kazunari Kurita, Takeshi Kadono, Satoshi Shigematsu, International Conference on Ion Implantation Technology . 2018

机译：碳氢化合物分子离子注入技术用于高级CMOS图像传感器的硅晶圆接近吸气设计
5. Differential Integrator Pixel Architecture for Dark Current Compensation in CMOS Image Sensors [D] . Mehri Dehnavi, Marzieh. 2015

机译：CMOS图像传感器暗电流补偿的差分积分器像素架构
6. Reduction of Dark Current in CMOS Image Sensor Pixels Using Hydrocarbon-Molecular-Ion-Implanted Double Epitaxial Si Wafers [O] . Ayumi Onaka-Masada, Takeshi Kadono, Ryosuke Okuyama, 2020

机译：使用烃类分子离子植入双外延Si晶片减少CMOS图像传感器像素中的暗电流
7. Proximity Gettering Design of Hydrocarbon–Molecular–Ion–Implanted Silicon Wafers Using Dark Current Spectroscopy for CMOS Image Sensors [O] . Kazunari Kurita, Takeshi Kadono, Satoshi Shigematsu, 2019

机译：使用暗电流光谱法对CMOS图像传感器进行烃类分子离子植入硅晶片的邻近静物设计

Proximity Gettering Design of Hydrocarbon–Molecular–Ion–Implanted Silicon Wafers Using Dark Current Spectroscopy for CMOS Image Sensors

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