Yunxiang Bai头像

Yunxiang Bai

Professor Trainee

Research direction: Extreme mechanical behavior of carbon nanotubes and high-performance elastomer composites

Education:

10 Access

  • Email: byx@mail.buct.edu.cn
  • Office :
  • Introduction
  • Research
  • Teaching
  • Funding
  • Publications
  • Awards
  • Honor Reward
  • Admission

#if(${article.articleType.name}=="TEACHER_CN") 个人简介 #else Introduction #end

2025-, Professer, Beijing University of Chemical Technology 

2021-2025, Assistant Research Fellow, National Center for Nanosciece and Technology, Chinese Academy of Science 2018-2019, Visiting Scholar, Stanford University (USA)

2016-2021, PhD, Tsinghua University (Beijing)

2012-2016, B.D. Beijing University of Chemical Technology

#if(${article.articleType.name}=="TEACHER_CN") 教育经历 #else Education #end

#if(${article.articleType.name}=="TEACHER_CN") 工作经历 #else Work Experience #end

#if(${article.articleType.name}=="TEACHER_CN") 社会职务 #else Social Position #end

#if(${article.articleType.name}=="TEACHER_CN") 社会活动 #else Social Activities #end

#if(${article.articleType.name}=="TEACHER_CN") 研究领域 #else Research #end

His research interests are extreme mechanical behavior of carbon nanotubes and high-performance elastomers/composites. 

He has published first-author/corresponding-author papers on Science, Nature Nanotechnology (cover paper), Advanced Materials, Accounts of Materials Research, etc., as well as 6 authorized invention patents and co-written two acdemic books. Has hosted 3 national level projects and 1 project of the Chinese Academy of Sciences. Has presented invited talks at over ten domestic and international conferences/universities.

#if(${article.articleType.name}=="TEACHER_CN") 本科生课程 #else Teaching #end

#if(${article.articleType.name}=="TEACHER_CN") 研究生课程 #else Postgraduates #end

#if(${article.articleType.name}=="TEACHER_CN") 校级项目 #else Funding #end

#if(${article.articleType.name}=="TEACHER_CN") 纵向项目 #else Vertical Project #end

#if(${article.articleType.name}=="TEACHER_CN") 横向项目 #else Horizontal Project #end

#if(${article.articleType.name}=="TEACHER_CN") 论文信息 #else Publications #end

#if(${article.articleType.name}=="TEACHER_CN")
[+][-]代表性论文

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2030年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2029年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2028年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2027年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2026年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2025年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2024年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-] 2023年

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

[+][-]2023年之前

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

#else

1. Yunxiang Bai, Hongjie Yue, Jin Wang, Boyuan Shen, Silei Sun, Shijun Wang, Haidong Wang, Xide Li, Zhiping Xu, Rufan Zhang*, Fei Wei*. Super-durable ultralong carbon nanotubes. Science 2020, 369, 1104-1106.(Research Opener Article)


2. Yunxiang Bai#, Rufan Zhang#*, Xuan Ye#, Zhenxing Zhu, Huanhuan Xie, Boyuan Shen, Dali Cai, Bofei Liu, Chenxi Zhang, Zhao Jia, Shenli Zhang, Xide Li*, Fei Wei*.Carbon nanotube bundles with tensile strength over 80 Gpa.Nature Nanotechnology 2018, 13, 589-595. (Cover paper)


3. Hongjie Yue, Hanzheng Xing, Lingxiang Qin, Yunxiang Bai*, Xiaoyan Li* and Fei Wei*. Intershell Friction Enhances the Dynamic Strength of Double-Walled Carbon Nanotubes to Over 90 GPa. Advanced Materials, 2025, 37, 2414643.


4. Yunxiang Bai#, Hongjie Yue#, Yukang Zhu, Jun Gao, Mengxiong Liu, Shijun Wang, Rufan Zhang, and Fei Wei*. Van der Waals Welding of Carbon Nanotubes with Near-Limit High Strength.Advanced Materials 2025, 37, 2502638.


5. Yunxiang Bai#, Boyuan Shen#, Shenli Zhang#, Zhenxing Zhu, Yao Wang, Rufan Zhang*, Fei Wei*. Mechanical energy storage based on carbon nanotubes with high energy density and power density. Advanced Materials2019, 31, e1800680. (Frontispiece paper)


6. Yunxiang Bai,# Hongjie Yue,# Rufan Zhang*, Weizhong Qian, Zhong Zhang, and Fei Wei*. Mechanical behavior of single and bundled defect-free carbon nanotubes. Accounts of Materials Research. 2021, 2, 11, 998-1009.

#end

#if(${article.articleType.name}=="TEACHER_CN") 软件著作 #else Awards #end

#if(${article.articleType.name}=="TEACHER_CN") 专利 #else Patent #end

#if(${article.articleType.name}=="TEACHER_CN") 荣誉及奖励 #else Honor Reward #end

#if(${article.articleType.name}=="TEACHER_CN") 招生信息 #else Admissions Information #end