副教授 材料科学与工程系

郭传飞博士现任南方科技大学材料科学与工程系副教授。2016年加入南方科技大学。主要研究领域为柔性电子学、智能软体机器人、微纳米加工、纳米材料的生长与性能等。已在Nature Communications、PNAS、LSA、JACS、Advanced Materials、Nano Letters、Advanced Functional Materials、Materials Today、ACS Nano等学术期刊上发表论文90多篇。申请专利30件,已获中、美、日等国专利授权13件,其中包括美国专利授权3件。参与编写英文专著一部。关于柔性电子学方面的研究成果被《New York Times》、《新华网》、《Science Daily》、《Materials Today》、《Physics Today》等新闻媒体与科技刊物广泛报道。主持和参与广东省珠江人才计划“引进创新创业团队”、国家自然科学基金重点项目、国家自然科学基金面上项目、深圳市基础研究学科布局等项目。

个人简介

Researcher ID :   H-9730-2018

教育经历

2006-2011      国家纳米科学中心(博士)     导师:刘前 研究员

2002-2006    华中科技大学(学士)

 

工作经历

2011-2012    波士顿学院          博士后,合作导师:任志锋 教授 

2013-2016    休斯敦大学          副研究员,合作导师:任志锋 教授

2016-至今     南方科技大学       副教授,博士生导师

 

所获荣誉与奖励

  1. 南方科技大学2019年度“青年教授奖” 2019  
  2. 中国化学会仿生材料化学专业委员会 委员  2019
  3. 中国机械工程学会微纳制造技术分会第二届委员会 委员  2018
  4. 广东省透明导电薄膜材料工程技术研究中心 委员  2017
  5. Guangdong Innovative and Entrepreneurial Team Program (广东省珠江人才计划创新创业团队), Team Leader  2017
  6. Top 10 highly cited paper of Light: Science & Applications  2017
  7. Shenzhen Overseas High-Caliber Personnel, Level B(深圳孔雀B类人才)  2016                                          
  8. ZhuLi Yuehua Award (朱李月华奖), Chinese Academy of Sciences, Beijing China  2011

 

 

 

课题组研究内容

  1. 超拉伸电子学和可植入电子学。包括超拉伸透明电极的制备;可拉伸光电子器件、能源器件和电子皮肤的制备及性能研究;生物相容性的柔性电极的制备,以及可植入电子器件和传感器件的研究。
  2. 软体智能机器人。包括柔性智能传感器的设计和制造,软体机器人的设计制造等,实现人/机/环境的友好交互。
  3. 非常规的纳米加工技术。通过仿生技术、无模板技术、基于应变的纳米加工方法等,制作大面积、低成本、高精度的纳米结构,有效降低加工成本,提高加工效率。
  4. 纳米结构薄膜及其在环境和能源方面的应用。通过设计纳米结构,制作高效率的能源材料与器件;通过设计表面,制作自清洁的功能化薄膜。

代表性论文

  1. Jun Huang, Liu Wang, Yuming Jin, Peng Lu, Lin-Lin Wang, Ningning Bai, Gang Li, Pang Zhu, Yan Wang, Jianming Zhang, Zhigang Wu, Chuan Fei Guo*. Tuning the Rigidity of Silk Fibroin for the Transfer of Highly Stretchable Electronics. Adv. Funct. Mater. 2020, 2001518. 
  2. Qingxian Liu, Zhiguang Liu, Chenggao Li, Kewei Xie, Chenggao Li, Pang Zhu, Biqi Shao, Jianming Zhang, Junlong Yang, Jin Zhang*, Quan Wang*, Chuan Fei Guo*. Highly Transparent and Flexible Iontronic Pressure Sensors Based on An Opaque to Transparent Transition, Adv. Sci. 2020, 202000348.
  3. Ningning Bai, Liu Wang, Qi Wang, Jue Deng, Yan Wang, Peng Lu, Jun Huang, Gang Li, Yuan Zhang, Junlong Yang, Kewei Xie, Xuanhe Zhao, Chuan Fei Guo*. Graded Intrafillable Architecture-based Ionic Pressure Sensor with Ultra-Broad-Range High Sensitivity, Nature Commun. 2020, 11, 209.
  4. Junlong Yang, Tianzeng Hong, Jue Deng, Yan Wang, Fan Lei, Jianming Zhang, Bo Yu, Zhigang Wu, Xinzheng Zhang, Chuan Fei Guo*, Stretchable, Transparent and Imperceptible Supercapacitors Based on Au@MnO2 Nanomesh Electrodes. Chem. Commun. 2019, 55, 13737-13740.
  5. Yan Wang, Qihan Liu, Jianming Zhang, Tianzeng Hong, Wenting Sun, Lu Tang, Eric Arnold, Zhigang Suo, Wei Hong, Zhifeng Ren*, Chuan Fei Guo*, Giant Poisson’s effect for wrinkle-free stretchable transparent electrodes, Adv. Mater. 2019, 1902955.
  6. Junlong Yang#, Qingxian Liu#, Zhihao Deng, Fan Lei, Jianming Zhang, Quan Wang, Xinzheng Zhang, Zhigang Wu, Chuan Fei Guo*. Ionic Liquid Activated Wearable Electronics. Mater. Today Phys. 2019, 8, 78-85.
  7. S. Huang, Y. Liu, Y. Zhao, Z. Ren*, C. F. Guo*. Flexible electronics: stretchable electrodes and their future. Adv. Funct. Mater. 2018, 1805924.
  8. Y. Wan, Z. Qiu, J. Huang, J. Yang, Q. Wang, P. Lu, J. Yang, J.g Zhang, S. Huang, Z. Wu, C. F. Guo*, Natural Plant Materials as Dielectric Layer for Highly Sensitive Flexible Electronic Skin. Small, 2018, 14, 801657.
  9. Z. Qiu, Y. Wan, W. Zhou, J. Yang, J. Yang, J. Huang, J. Zhang, Q. Liu, S. Huang, N. Bai, Z. Wu, W. Hong, H. Wang, C. F. Guo*, Ionic Skin with Biomimetic Dielectric Layer Templated from Calathea Zebrine Leaf, Adv. Funct. Mater.  2018, 1802343. 
  10. Yongbiao Wan, Yan Wang, Chuan Fei Guo*. Recent progresses on flexible tactile sensors. Mater. Today Phys. 2017, 1, 61-73.
  11. Y. Liu, J. Zhang, G. Heng, Y. Wang, Q. Liu,  S. Huang, C. F. Guo*,  Z.Ren*, Capillary-Force-Induced Cold Welding in Silver-Nanowire-Based Flexible Transparent Electrodes. Nano Lett. 2017, 17, 1090-1096.
  12.  H. Zhang,  F. Yang,  J. Dong,  L. Du,  C. Wang,  J. Zhang, C. F. Guo*,Q. Liu *, Kaleidoscopic imaging patterns of complex structures fabricated by laser-induced deformation. Nature Commun. 2016, 7, 13743.
  13. C. F. Guo, Y. Chen, L. Tang, F. Wang, Z. Ren. Enhancing scratch-resistance by introducing chemical bonding in highly stretchable and transparent electrodes. Nano Lett. 2016, 16, 594–600. 
  14. C. F. Guo, Q. Liu, G. Wang, Y. Wang, Z. Suo, C. Chu, Z. Ren. Fatigue-free, super-stretchable, transparent, and biocompatible metal electrodes. PNAS 2015, 112, 12332–12337.
  15. C. F. Guo, and Z. Ren. Flexible transparent conductors based on metal nanowire networks. Mater. Today 2015, 18, 143–153.
  16. C. F. Guo, T. Sun, Q. Liu, Z. Suo, Z. Ren. Highly stretchable and transparent nanomesh electrodes made by grain boundary lithography. Nature Commun. 2014, 5, 3121.
  17. C. F. Guo, Tianyi Sun, Feng Cao, Qian Liu, Zhifeng Ren. Metallic nanostructures for light trapping in solar energy harvesting devices. Light Sci. Appl. 2014, 3, e161.
  18. C. F. Guo, Y. Lan, T. Sun, and Z. Ren. Deformation–induced cold-welding for self-healing of super-durable flexible transparent electrodes. Nano Energy 2014, 8, 110
  19. T. Sun#, C. F. Guo#, F. Cao, E. Akinoglu,Y. Wang, M. Giersig, Z. Ren, and K. Kempa. A Broadband Solar Absorber with 12 nm Thick Ultrathin a-Si Layer by Using Random Metallic Nanomeshes. Appl. Phys. Lett. 2014, 104, 251119. (# Co-1st author)
  20. W. Liu#, C. F. Guo#, M. Yao, Y. Lan, H. Zhang, Q. Zhang, S. Chen, C. Opeil, Z. Ren. Surface treatments of Bi2S3 nano network as the strategy for improved thermoelectrics. Nano Energy 2014, 4, 113-122. (# Co-1st author)
  21. C. F. Guo, T. Sun, Y. Wang, J. Gao, Q. Liu, Z. Ren. Conductive black silicon surface made by silver nanonetwork assisted etching. Small 2013, 9, 2415–2419.
  22. C. F. Guo, J. Zhang, M. Wang, Y. Tian, Q. Liu. A Strategy to prepare wafer scale bismuth compound superstructures. Small 2013, 9, 2394–2398.
  23. C. F. Guo, J. Zhang, Y. Tian, Q. Liu. A general strategy to superstructured networks and nested self-similar networks of bismuth compounds. ACS Nano 2012, 6, 8746–8752.
  24. C. F. Guo, V. Nayyar, Z. Zhang, Y. Chen, J. Miao,  R. Huang,and Q. Liu. Path-guided wrinkling of nanoscale metal films.  Adv. Mater.  2012, 24, 3010–3014. (Cover). 
  25. C. F. Guo, Y. Tian, S. Cao, J. Zhang, H. Tang, and Q. Liu. Topotactic transformations of superstructures: from thin films to 2D networks to nested 2D networks. J. Am. Chem. Soc. 2011, 133, 8211–8215. (Cover). 
  26. C. F. Guo, J. Zhang, J. Miao, Y. Fan and Q. Liu. MTMO grayscale mask.  Opt. Express 2010, 18, 2621–2631. 
  27. C. F. Guo, Z. Zhang, S. Cao, Q. Liu. Laser direct writing of nanoreliefs in Sn nanofilms.   Opt. Lett. 2009, 34, 2820–2822. 
  28. C. F. Guo, S. Cao, P. Jiang, Y. Fang, J. Zhang, Y. Fan, Y. Wang, W. Xu, Z. Zhao, and Q. Liu. Grayscale photomask fabricated by laser direct writing in metallic nano-films.  Opt. Express 2009, 17, 19981–19987. 

 

研究领域

1. 超拉伸电子学和可植入电子学。包括超拉伸透明电极的制备;可拉伸光电子器件、能源器件和电子皮肤的制备及性能研究;生物相容性的柔性电极的制备,以及可植入电子器件和传感器件的研究。

2. 软体智能机器人。包括柔性智能传感器的设计和制造,软体机器人的设计制造等,实现人/机/环境的友好交互。

3. 非常规的纳米加工技术。通过仿生技术、无模板技术、基于应变的纳米加工方法等,制作大面积、低成本、高精度的纳米结构,有效降低加工成本,提高加工效率。

4. 纳米结构薄膜及其在环境和能源方面的应用。通过设计纳米结构,制作高效率的能源材料与器件;通过设计表面,制作自清洁的功能化薄膜。


教学

2019

MSE001 Fundamentals of Materials Science and Engineering

Offered in Fall semester for undergraduate students, credits: 3

GGC5009 Literature Research and Academic Writing

Offered in Fall semester for graduate students, credits: 2

MSE5014 Flexible Electronic Materials

Offered in Spring semester for graduate students, credits: 2

2018

MSE201 Fundamentals of Materials Science and Engineering

Offered in Fall semester for undergraduate students, credits: 3

GGC5009 Literature Research and Academic Writing

Offered in Fall semester for graduate students, credits: 2

MSE5014 Flexible Electronic Materials

Offered in Spring semester for graduate students, credits: 2

2017

MSE201 Fundamentals of Materials Science and Engineering

Offered in Fall semester for undergraduate students, credits: 3

GGC5009 Literature Research and Academic Writing

Offered in Fall semester for graduate students, credits: 2

2016

MSE201 Fundamentals of Materials Science and Engineering

Offered in Fall semester for undergraduate students, credits: 3

GGC5009 Literature Research and Academic Writing

Offered in Fall semester for graduate students, credits: 2


学术成果 查看更多

代表论文:

1. Jun Huang, Liu Wang, Yuming Jin, Peng Lu, Lin-Lin Wang, Ningning Bai, Gang Li, Pang Zhu, Yan Wang, Jianming Zhang, Zhigang Wu, Chuan Fei Guo*. Tuning the Rigidity of Silk Fibroin for the Transfer of Highly Stretchable Electronics. Adv. Funct. Mater. 2020, 2001518. 

2. Qingxian Liu, Zhiguang Liu, Chenggao Li, Kewei Xie, Chenggao Li, Pang Zhu, Biqi Shao, Jianming Zhang, Junlong Yang, Jin Zhang*, Quan Wang*, Chuan Fei Guo*. Highly Transparent and Flexible Iontronic Pressure Sensors Based on An Opaque to Transparent Transition, Adv. Sci. 2020, 202000348.

3. Ningning Bai, Liu Wang, Qi Wang, Jue Deng, Yan Wang, Peng Lu, Jun Huang, Gang Li, Yuan Zhang, Junlong Yang, Kewei Xie, Xuanhe Zhao, Chuan Fei Guo*. Graded Intrafillable Architecture-based Ionic Pressure Sensor with Ultra-Broad-Range High Sensitivity, Nature Commun. 2020, 11, 209.

4. Junlong Yang, Tianzeng Hong, Jue Deng, Yan Wang, Fan Lei, Jianming Zhang, Bo Yu, Zhigang Wu, Xinzheng Zhang, Chuan Fei Guo*, Stretchable, Transparent and Imperceptible Supercapacitors Based on Au@MnO2 Nanomesh Electrodes. Chem. Commun. 2019, 55, 13737-13740.

5. Yan Wang, Qihan Liu, Jianming Zhang, Tianzeng Hong, Wenting Sun, Lu Tang, Eric Arnold, Zhigang Suo, Wei Hong, Zhifeng Ren*, Chuan Fei Guo*, Giant Poisson’s effect for wrinkle-free stretchable transparent electrodes, Adv. Mater. 2019, 1902955.

6. Junlong Yang#, Qingxian Liu#, Zhihao Deng, Fan Lei, Jianming Zhang, Quan Wang, Xinzheng Zhang, Zhigang Wu, Chuan Fei Guo*. Ionic Liquid Activated Wearable Electronics. Mater. Today Phys. 2019, 8, 78-85.

7. S. Huang, Y. Liu, Y. Zhao, Z. Ren*, C. F. Guo*. Flexible electronics: stretchable electrodes and their future. Adv. Funct. Mater. 2018, 1805924.

8. Y. Wan, Z. Qiu, J. Huang, J. Yang, Q. Wang, P. Lu, J. Yang, J.g Zhang, S. Huang, Z. Wu, C. F. Guo*, Natural Plant Materials as Dielectric Layer for Highly Sensitive Flexible Electronic Skin. Small, 2018, 14, 801657.

9. Z. Qiu, Y. Wan, W. Zhou, J. Yang, J. Yang, J. Huang, J. Zhang, Q. Liu, S. Huang, N. Bai, Z. Wu, W. Hong, H. Wang, C. F. Guo*, Ionic Skin with Biomimetic Dielectric Layer Templated from Calathea Zebrine Leaf, Adv. Funct. Mater. 2018, 1802343.

10. Yongbiao Wan, Yan Wang, Chuan Fei Guo*. Recent progresses on flexible tactile sensors. Mater. Today Phys. 2017, 1, 61-73.

11. Y. Liu, J. Zhang, G. Heng, Y. Wang, Q. Liu, S. Huang, C. F. Guo*, Z.Ren*, Capillary-Force-Induced Cold Welding in Silver-Nanowire-Based Flexible Transparent Electrodes. Nano Lett. 2017, 17, 1090-1096.

12. H. Zhang, F. Yang, J. Dong, L. Du, C. Wang, J. Zhang, C. F. Guo*,Q. Liu *, Kaleidoscopic imaging patterns of complex structures fabricated by laser-induced deformation. Nature Commun. 2016, 7, 13743.

13. C. F. Guo, Y. Chen, L. Tang, F. Wang, Z. Ren. Enhancing scratch-resistance by introducing chemical bonding in highly stretchable and transparent electrodes. Nano Lett. 2016, 16, 594–600.

14. C. F. Guo, Q. Liu, G. Wang, Y. Wang, Z. Suo, C. Chu, Z. Ren. Fatigue-free, super-stretchable, transparent, and biocompatible metal electrodes. PNAS 2015, 112, 12332–12337.

15. C. F. Guo, and Z. Ren. Flexible transparent conductors based on metal nanowire networks. Mater. Today 2015, 18, 143–153.

16. C. F. Guo, T. Sun, Q. Liu, Z. Suo, Z. Ren. Highly stretchable and transparent nanomesh electrodes made by grain boundary lithography. Nature Commun. 2014, 5, 3121.

17. C. F. Guo, Tianyi Sun, Feng Cao, Qian Liu, Zhifeng Ren. Metallic nanostructures for light trapping in solar energy harvesting devices. Light Sci. Appl. 2014, 3, e161.

18. C. F. Guo, Y. Lan, T. Sun, and Z. Ren. Deformation–induced cold-welding for self-healing of super-durable flexible transparent electrodes. Nano Energy 2014, 8, 110

19. T. Sun#, C. F. Guo#, F. Cao, E. Akinoglu,Y. Wang, M. Giersig, Z. Ren, and K. Kempa. A Broadband Solar Absorber with 12 nm Thick Ultrathin a-Si Layer by Using Random Metallic Nanomeshes. Appl. Phys. Lett. 2014, 104, 251119. (# Co-1st author)

20. W. Liu#, C. F. Guo#, M. Yao, Y. Lan, H. Zhang, Q. Zhang, S. Chen, C. Opeil, Z. Ren. Surface treatments of Bi2S3 nano network as the strategy for improved thermoelectrics. Nano Energy 2014, 4, 113-122. (# Co-1st author)

21. C. F. Guo, T. Sun, Y. Wang, J. Gao, Q. Liu, Z. Ren. Conductive black silicon surface made by silver nanonetwork assisted etching. Small 2013, 9, 2415–2419.

22. C. F. Guo, J. Zhang, M. Wang, Y. Tian, Q. Liu. A Strategy to prepare wafer scale bismuth compound superstructures. Small 2013, 9, 2394–2398.

23. C. F. Guo, J. Zhang, Y. Tian, Q. Liu. A general strategy to superstructured networks and nested self-similar networks of bismuth compounds. ACS Nano 2012, 6, 8746–8752.

24. C. F. Guo, V. Nayyar, Z. Zhang, Y. Chen, J. Miao, R. Huang,and Q. Liu. Path-guided wrinkling of nanoscale metal films. Adv. Mater. 2012, 24, 3010–3014. (Cover).

25. C. F. Guo, Y. Tian, S. Cao, J. Zhang, H. Tang, and Q. Liu. Topotactic transformations of superstructures: from thin films to 2D networks to nested 2D networks. J. Am. Chem. Soc. 2011, 133, 8211–8215. (Cover).

26. C. F. Guo, J. Zhang, J. Miao, Y. Fan and Q. Liu. MTMO grayscale mask. Opt. Express 2010, 18, 2621–2631.

27. C. F. Guo, Z. Zhang, S. Cao, Q. Liu. Laser direct writing of nanoreliefs in Sn nanofilms. Opt. Lett. 2009, 34, 2820–2822.

28. C. F. Guo, S. Cao, P. Jiang, Y. Fang, J. Zhang, Y. Fan, Y. Wang, W. Xu, Z. Zhao, and Q. Liu. Grayscale photomask fabricated by laser direct writing in metallic nano-films. Opt. Express 2009, 17, 19981–19987.

专利:

1. 郭传飞, 王燕, 张建明. 一种基于金属微纳米网络的柔性防伪层、其制备方法和用途. 中国发明专利,申请号: 201911233482.4,申请日:2019-12-05.

2. 郭传飞, 白宁宁, 王柳. 一种介电层、离子电容式柔性触觉传感器及其制备方法和应用. 中国发明专利,申请号:201911083091.9,申请日期:2019-11-7.

3. 郭传飞, 刘庆先, 王泉. Sensor Dielectric Layer and Preparation Method and Use Thereof. PCT国际专利申请. 申请号:PCT/CN2019/094686,申请日:2019-07-04.

4. 郭传飞, 黄思雅, 朱胖. 一种触觉感知智能织物的制备方法及其应用. 中国发明专利, 申请号:201910848233.X, 申请日:2019-09-09.

5. 郭传飞, 黄思雅, 朱胖. 一种柔性触觉传感器及其制备方法和应用. 中国发明专利, 申请号:201910785274.9, 申请日: 2019-08-23.

6. 郭传飞, 刘庆先, 王泉. 一种传感器介电层及其制备方法和用途. 中国发明专利: 201910227098.7. 申请日:2019-3-25.

7. Chuanfei Guo, Qingxian Liu, Junlong Yang, Jianming Zhang, Quan Wang, A Wearable Garment Sensor and Preparation Method and Application Thereof. Appl. No: PCT/CN2019/074929, Date: 2019-02-13.

8. 郭传飞,李刚,邓志灏. 一种可拉伸超灵敏电子皮肤及其制备方法和应用. 中国发明专利, 申请号:201910032991.4, 申请日: 2019-01-14.

9. 郭传飞,王燕, 一种用于表皮信号采集的表皮电极及其应用. 中国发明专利, 专利号: 201811494172.3. 申请日:2018-12-07.

10. 郭传飞, 刘庆先, 杨俊龙, 王泉. 一种可穿戴式服装传感器及其制备方法和应用, 中国发明专利, 专利号: 201811398166.8. 申请日:2018-11-22.

11. 郭传飞, 刘庆先, 杨俊龙, 王泉. 一种一体式电容式传感器及其制备方法和应用, 中国发明专利, 专利号: 201811398168.7. 申请日:2018-11-22.

12. 郭传飞, 万永彪, 邱志光. 一种触觉传感器及其制备方法, 中国发明专利, 专利号: 201810791819.2. 申请日:2018-07-18.

13. 郭传飞, 刘庆先, 黄俊, 张建明, 洪颖, 王琪. 一种保温防水抗菌多功能布料及其制备方法和应用. 中国发明专利, 申请号: 201711237044.6. 申请日: 2017-11-30, 公开日: 2018-03-06.

14. 郭传飞, 刘庆先, 张建明, 王燕. 一种柔性透明电极的制备方法. 中国发明专利, 专利号: CN 201610967375.4 (已授权,Issued on 2018.2.27)

15. Zhifeng Ren, Siya Huang, Chuanfei Guo, Flexible Electrodes and Methods of Manufacture Thereof. Application No.: US 62/492 437.

16. Zhifeng Ren, Chuanfei Guo, Yuan Liu. Scratch Resistant Flexible Transparent Electrodes and Methods for Fabricating Ultrathin Metal Files as Electrodes. Application No.: US 15/547,033.

17. Zhifeng Ren, Tianyi Sun, Chuanfei Guo. Composite filter for visible light transmission and long wave reflection, US Patent No: 10,012,775 B2. (Issued on 2018.07.03)

18. Zhifeng Ren, Tianyi Sun, Chuanfei Guo. Metallic nanomeshes. US Patent No: 9899117. (Issued on 2018.02.20)

19. Chuanfei Guo, Qian Liu, Sihai Cao, Yongsheng Wang. Metal optical grayscale mask and manufacturing method thereof. US patent No.: 8133642. (Issued on 2012.03.13).

20. Chuanfei Guo, Qian Liu, Sihai Cao, Yongsheng Wang. 金属製光グレイスケールマスクおよびその製造. No.: JP 5558446. (Issued on 2014.06.13)

21. 郭传飞,刘前,曹四海,王永胜. 一种金属光学灰度掩模及其制作方法. 专利号: CN200980111157.9. (已授权,Issued on 2012.05.09)

22. 田野,刘前,郭传飞. BiOCl, BiOBr和Bi2S3的微纳米分级结构. 专利号: CN 2012041000748230.

23. Chuanfei Guo, Qian Liu, Sihai Cao, Yongsheng Wang, Metal optical grayscale mask and manufacturing method thereof. Application No.: EP 2378360A1.

24. 张祝伟,郭传飞,刘前. 一种具有微纳褶皱图案的薄膜制备方法. 专利号: CN 201010135681.4 (已授权,Issued on 2012.11.21)

25. 张建明, 郭传飞, 刘前. 一种超细晶金属或合金薄膜及其制备方法. 专利号: CN 201010033715.9 (已授权,Issued on 2012.01.25)

26. 王永胜,刘前,曹四海,郭传飞,苗俊杰,田野. 一种基于激光直写金属薄膜线性可控制备纳米点阵的方法专利号: CN 200910088086.7 (已授权,Issued on 2015.01.15)

27. 曹四海, 郭传飞, 刘前. 一种微米/纳米尺度BiOCl薄膜材料及其制备方法. 专利号: CN 200810224601.5 (已授权,Issued on 2011.07.27)

28. 刘前, 郭传飞, 曹四海. 一种具有超分辨近场结构的只读光盘. 专利号: CN 200710119655.0 (已授权,Issued on 2011.11.23)

29. 刘前, 曹四海, 郭传飞,李晓军. 带有氧化物掩模的局域微缩光刻膜. 专利号: CN 200710065294.6 (已授权,Issued on 2011.03.30)

30. 刘前, 曹四海, 郭传飞,李晓军. 一种用于光刻技术的无机热阻膜. 专利号: CN 200710065293.1 (已授权,Issued on 2011.03.30)

专著:

Laser Path-Guided Wrinkle Structures. Chapter 3 inNovel Optical Technologies for Nanofabrication, pp.43-80. Springer Berlin Heidelberg, 2014.

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团队成员 查看更多

加入团队

一、联培学生、研究助理招聘

1.研究方向

a、超拉伸电子学和可植入电子学。

b、非常规的纳米加工技术。

c、智能软体机器人,结合软体机器人和超柔性电子传感器,发展智能和友好型的软体机器人。

d、纳米结构薄膜及其在环境和能源方面的应用。

2.要求、待遇及前景

要求:具有化学、材料、电子、物理、力学、半导体器件、机械控制等相关领域的研究经历。要求申请人动手能力强,工作勤奋踏实,具有团队合作精神。

基本待遇:研究助理基本待遇不低于6000元/月,按13个月发放,另有过节费、高温补贴、计生奖近两万元,以及五险一金

表现优秀者,支持申请南科大境外联培博士

3.应聘方式

欢迎有科研志向的年轻学者加入本课题组!请将简历(含代表论文或者其它形式的代表性成果情况)发到guocf@sustech.edu.cn,联系人:郭传飞。课题组将安排面试。

 

二、MIT-南科大联合中心诚聘优秀博士后和研究序列教授(可赴MIT交流)

南方科技大学工学院将与麻省理工学院(MIT)机械工程系合作建立“南方科技大学-MIT机械工程科研教育中心”,现招聘数名博士后和研究序列教授。根据项目合作需求,南科大将择优选派至多六名研究生或博士后到MIT参与由中心资助的研究项目。先进制造方向,其中南科大和MIT各有两名教授参与到该项目中。

1.背景要求

博士后:具有博士学位,或者即将获得博士学位;具有微纳米加工、3D打印、微纳米制造、柔性电子学、材料科学等方面的研究经历;在国际上有影响力的刊物上发表过论文;具有良好的可培养潜力。

研究序列教授:具有微纳米加工、3D打印、微纳米制造、或者柔性电子学等方面的研究经历;具有博士学位并要求有博士毕业后两年以上的研究经历,特别优秀者可不受年限限制;在国际上相关领域著名刊物上发表过多篇论文,具有良好的发展潜质。

2. 待遇

博士后:按南科大和广东省相关标准执行,南科大按月发放工资(8000元/月)和给与规定的福利,并给与每月2800元的住房补贴;深圳市给与每年12万的免税补贴(工资、福利和补贴共计27万/年)。同时,按最新政策广东省还将给与每年15万的免税补贴。共收入可超过42万(外加3万以上的房补),其中27万免税。优秀者可赴MIT交流。

研究序列教授:研究助理教授30万/年,研究副教授40万/年,并按规定享有学校的福利待遇。优秀者可赴MIT交流。

3. 研究内容

主要分为三个方向

a. 基于柔性电子材料和活性聚合物材料的基础和应用研究,包括在生物医学方面的应用

b. 活性软材料的3D打印研究

c. 智能软体机器人研究,包括人机交互等

4. 应聘方法

提交简历和代表性工作至本人邮箱,并注明MIT-南科大联合项目应聘

5. 联系方式

郭传飞  南方科技大学/材料科学与工程系

深圳市南山区西丽学苑大道1088号

电话:0755-8801 8929

Email:guocf@sustech.edu.cn

所有应聘人同时将简历抄送给:liuwl@mail.sustech.edu.cn

 

三、博士后和研究教授招聘

1. 研究方向

本次招聘主要面向共融机器人方向,主要资助项目为国家自然科学基金重点项目。

2. 岗位要求及待遇

具有机器人方面的研究经验,包括软件、控制反馈等;

年税前收入约27万(其中有12万免税——所以税很轻),另有每月2800元税后住房补贴。十分优秀者,可以申请研究助序列教授(由机会评硕导博导),或者校长卓越博后(比普通博士后收入高七万)。

3. 应聘方式

发email至guocf@sustech.edu.cn,并抄送给liuwl@mail.sustech.edu.cn。注明博士后应聘。

查看更多

联系我们

联系地址

广东省深圳市南山区学苑大道1088号南方科技大学创园六栋202室

办公电话

0755-88018929

电子邮箱

guocf@sustech.edu.cn

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