Your search keyword '"Zhang, Yongkui"' showing total 7 results

1. A Novel Dry Selective Isotropic Atomic Layer Etching of SiGe for Manufacturing Vertical Nanowire Array with Diameter Less than 20 nm

Author

Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, Radamson, Henry H., Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, and Radamson, Henry H.

Abstract

Semiconductor nanowires have great application prospects in field effect transistors and sensors. In this study, the process and challenges of manufacturing vertical SiGe/Si nanowire array by using the conventional lithography and novel dry atomic layer etching technology. The final results demonstrate that vertical nanowires with a diameter less than 20 nm can be obtained. The diameter of nanowires is adjustable with an accuracy error less than 0.3 nm. This technology provides a new way for advanced 3D transistors and sensors.

Published

2020

2. A Novel Dry Selective Isotropic Atomic Layer Etching of SiGe for Manufacturing Vertical Nanowire Array with Diameter Less than 20 nm

Author

Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, Radamson, Henry H., Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, and Radamson, Henry H.

Abstract

Semiconductor nanowires have great application prospects in field effect transistors and sensors. In this study, the process and challenges of manufacturing vertical SiGe/Si nanowire array by using the conventional lithography and novel dry atomic layer etching technology. The final results demonstrate that vertical nanowires with a diameter less than 20 nm can be obtained. The diameter of nanowires is adjustable with an accuracy error less than 0.3 nm. This technology provides a new way for advanced 3D transistors and sensors.

Published

2020

3. A Novel Dry Selective Isotropic Atomic Layer Etching of SiGe for Manufacturing Vertical Nanowire Array with Diameter Less than 20 nm

Author

Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, Radamson, Henry H., Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, and Radamson, Henry H.

Abstract

Semiconductor nanowires have great application prospects in field effect transistors and sensors. In this study, the process and challenges of manufacturing vertical SiGe/Si nanowire array by using the conventional lithography and novel dry atomic layer etching technology. The final results demonstrate that vertical nanowires with a diameter less than 20 nm can be obtained. The diameter of nanowires is adjustable with an accuracy error less than 0.3 nm. This technology provides a new way for advanced 3D transistors and sensors.

Published

2020

4. A Novel Dry Selective Isotropic Atomic Layer Etching of SiGe for Manufacturing Vertical Nanowire Array with Diameter Less than 20 nm

Author

Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, Radamson, Henry H., Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, and Radamson, Henry H.

Abstract

Semiconductor nanowires have great application prospects in field effect transistors and sensors. In this study, the process and challenges of manufacturing vertical SiGe/Si nanowire array by using the conventional lithography and novel dry atomic layer etching technology. The final results demonstrate that vertical nanowires with a diameter less than 20 nm can be obtained. The diameter of nanowires is adjustable with an accuracy error less than 0.3 nm. This technology provides a new way for advanced 3D transistors and sensors.

Published

2020

5. A Novel Dry Selective Isotropic Atomic Layer Etching of SiGe for Manufacturing Vertical Nanowire Array with Diameter Less than 20 nm

Author

Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, Radamson, Henry H., Li, Junjie, Li, Yongliang, Zhou, Na, Wang, Guilei, Zhang, Qingzhu, Du, Anyan, Zhang, Yongkui, Gao, Jianfeng, Kong, Zhenzhen, Lin, Hongxiao, Xiang, Jinjuan, Li, Chen, Yin, Xiaogen, Li, Yangyang, Wang, Xiaolei, Yang, Hong, Ma, Xueli, Han, Jianghao, Zhang, Jing, Hu, Tairan, Yang, Tao, Li, Junfeng, Yin, Huaxiang, Zhu, Huilong, Wang, Wenwu, and Radamson, Henry H.

Abstract

Semiconductor nanowires have great application prospects in field effect transistors and sensors. In this study, the process and challenges of manufacturing vertical SiGe/Si nanowire array by using the conventional lithography and novel dry atomic layer etching technology. The final results demonstrate that vertical nanowires with a diameter less than 20 nm can be obtained. The diameter of nanowires is adjustable with an accuracy error less than 0.3 nm. This technology provides a new way for advanced 3D transistors and sensors.

Published

2020

6. The Investigation of Negative Capacitance Vertical Nanowire FETs Based on SPICE Model at Device-Circuit Level

Author

Huang, Weixing, Zhu, Huilong, Jia, Kunpeng, Wu, Zhenhua, Yin, Xiaogen, Huo, Qiang, Zhang, Yongkui, Huang, Weixing, Zhu, Huilong, Jia, Kunpeng, Wu, Zhenhua, Yin, Xiaogen, Huo, Qiang, and Zhang, Yongkui

Abstract

In this study, a SPICE model for negative capacitance vertical nanowire field-effect-transistor (NC VNW-FET) based on BSIM-CMG model and Landau-Khalatnikov (LK) equation was presented. Suffering from the limitation of short gate length there is lack of controllable and integrative structures for high performance NC VNW-FETs. A new kind of structure was proposed for NC VNW-FETs at sub-3nm node. Moreover, in order to understand and improve NC VNW-FETs, the S-shaped polarization-voltage curve (S-curve) was divided into four regions and some new design rules were proposed. By using the SPICE model, device-circuit co-optimization was implemented. The co-design of gate work function (WF) and NC was investigated. A ring oscillator was simulated to analyze the circuit energy-delay, and it shown that significant energy reduction, up to 88%, at iso-delay for NC VNW-FETs at low supply voltage can be achieved. This study gives a credible method to analysis the performance of NC based devices and circuits and reveals the potential of NC VNW-FETs in low-power applications.

Published

2020

7. A Recurrent Synovial Osteochondromatosis of the Knee: A Case Report

Author

Manandhar,Sripur, Li,Jiazhen, Lu,Xin-Chang, Zhang,Yan, Zhang,Yi, Liu,Yongkui, Zhang,Chao, Manandhar,Sripur, Li,Jiazhen, Lu,Xin-Chang, Zhang,Yan, Zhang,Yi, Liu,Yongkui, and Zhang,Chao

Abstract

Sripur Manandhar, Jiazhen Li, Xin-Chang Lu, Yan Zhang, Yi Zhang, Yongkui Liu, Chao Zhang Department of Orthopedics, First Affiliated Hospital of Zhengzhou University, Zhengzhou, People’s Republic of ChinaCorrespondence: Jiazhen LiDepartment of Orthopedics, First Affiliated Hospital of Zhengzhou University, No. 1 Jianshe East Road, Zhengzhou, 450052, People’s Republic of ChinaTel +8613803853758Email jzhli6411@163.comAbstract: We report a case of a farmer who presented with synovial osteochondromatosis of his right knee that mimicked a huge hardball. A synovial proliferative disease associated with metaplasia of cartilage resulting in sporadic multiple intra-articular and extra-articular loose bodies. Our focus is to report a rare case successfully operated which has an educational significance in clinical practice.Keywords: synovial osteochondromatosis, osteocartilaginous nodules, chondrosarcoma, synovial sarcoma, synovectomy

Published

2021