石磊

个人基本简介: 

职称:副教授

学位:自然科学博士

毕业学校:维也纳大学

电子邮件:shilei26@mail.sysu.edu.cn

通讯地址:广东省广州市海珠区新港西路135号中山大学551栋物理楼306

课题组主页:https://www.x-mol.com/groups/shi_lei

 

主要经历: 

2018.10-至今  中山大学 百人计划 副教授

2015.04-2018.10 维也纳大学 博士后

2011.10-2015.03 维也纳大学 自然科学博士

2008.09-2011.07 上海大学 理学硕士

2004.09-2008.06 河北科技大学 理学学士

学科方向: 

 

本课题组为“一维纳米碳”实验室,英文为“1D NanoCarbons”,旨在推动和发展一维纳米碳材料在国内外的研究,方向集中在完全一维的碳链以及准一维的碳纳米管和石墨烯纳米带等的制备、性能与应用研究。欢迎具有物理、材料、化学和生命科学背景的学生加入课题组一起推动一维纳米碳材料的研究和发展。

1. 欢迎本科生到课题组做科学培养和毕业设计(有机会留课题组读研究生或出具推荐信)。

2. 招收学术(2020/2021)硕士研究生(可以转博或毕业推荐到欧洲攻读全奖博士学位)。

3. 招聘博士后和特聘正、​副研究员(聘期结束可竞聘副教授);课题可自主选择,不拘泥于一维纳米碳。

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本科教学:专业英语及文献(MSE322),先进材料科学与进展(MSE308)​,材料科学前沿讲座(MSE326),科研训练课(MSE403)

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课题组现有成员:

博士后:张侃、张一帆

硕士生:李璇

本科生:靳钧、林梓恒

科研助理1名

荣誉获奖: 

              2007 Excellent Students Awards, HEBUST

              2008 Chinese National Aspiration Scholarship, China

              2009 Excellent Students Awards, Shanghai University

              2010 Outstanding Student Cadre, Shanghai University

              2010 The Best Posteraward, Chinese Physical Society Fall 2010 Conference

              2011 Shanghai Outstanding Graduate (Shanghai)

              2012 Shanghai Graduate Outstanding Achievements (Master Thesis) (Shanghai)

               2015 Outstanding Ph.D. Thesis, University of Vienna

              2016 The Best Poster award, Nature Conference on Materials for Energy, Wuhan, China

              2016 Record breaking result in chemistry, ACS Central Sciences

              2017 Seal of Excellence, Marie Skłodowska-Curie actions, European Commission

              2019 ChinaNANO 2019, Best Poster Award

主要兼职: 

期刊审稿人,如Advanced Materials, Advanced Theory and Simulations, Carbon, Nanoscale, The Journal of Chemical Physics, Physica Status Solidi B/RRL, 等等。

 

会议组织:“一维纳米碳材料论坛•中山大学” 2018

科学网博客:http://bbs.sciencenet.cn/home.php?mod=space&uid=327614&view=wulishi8

小木虫论坛:http://muchong.com/bbs/space.php?uid=654606

 

代表论著: 

在Nature Mater., ACS Nano, Phys. Rev. Materials, App. Phys. Lett., Nano Research, Nanoscale, Nano Lett. Phys. Rev. B, Adv. Mater., Adv. Funct. Mater., Chem. Mater., Carbon等期刊发表论文20余篇;其中第一作者发表在Nature Materials上的论文报道了世界上最长碳链的成功制备和性能研究,受到了审稿人的极高评价和科学界极大的关注(上百家国内外媒体报道,如Sciencedaily, C&EN, MRS, MailDaily,科技日报的头版头条和主编点评,等等),被ACS Central Sciences评为2016年度化学界的五大世界纪录之一,目前是所在碳链领域两篇高被引论文之一。

Research ID:http://www.researcherid.com/rid/D-5367-2012

Publons: https://publons.com/researcher/1357199/lei-shi/

Google Scholar: https://scholar.google.com/citations?hl=zh-CN&user=kX4FyXAAAAAJ

 

*通讯作者

2019:

 

27. Oxidation stability of confined linear carbon chains, carbon nanotubes, and graphene nanoribbons as 1D nanocarbons.  Nanoscale; 11, 15253 - 15258 (2019) Weili Cui, Takeshi Saito, Paola Ayala, Thomas Pichler, Lei Shi*

26. Towards controllable inner chirality in double-walled carbon nanotubes. Applied Physics Letters; 115, 103102 (2019). Johnny Chimborazo, T. Saito, T. Pichler, L. Shi*, P. Ayala*.

25. Wall- and hybridisation- selective synthesis of nitrogen-doped double-walled carbon nanotubes. Angewandte Chemie International Edition; 30, 10276-10280 (2019) ​Marco Carini, L. Shi, T. W. Chamberlain, M. Liu, G. Valenti, M. Melle-Franco, F. Paolucci, A. Khlobystov,* T. Pichler,* and A. Mateo-Alonso*. 

24. Towards a predominant substitutional bonding environment in B-doped single-walled carbon nanotubes. ACS Omega; 4, 1941–1946 (2019); C. Reinoso, C. Berkmann, L. Shi, A. Debut, K. Yanagi, T. Pichler, P. Ayala*. 

-----------------------------------分界线:以上为中山大学为作者单位(之一)的论文

 

2018:

23. Templated Direct growth of ultra-thin double-walled carbon nanotubes. Nanoscale; 10, 21254-21261(2018); L. Shi*, J. Q. Wei, T. Saito, K. C. Cao, U. Kaiser, P. Ayala, T. Pichler. 

22. Very-high boron-doping on single-walled carbon nanotubes from a solid precursorCarbon; 140, 259-264 (2018); C. Reinoso, L. Shi, O. Domanov, P. Rohringer, T. Pichler, P. Ayala*.

21. Carbon nanotube chirality determines properties of encapsulated linear carbon chainsNano Letters; 18 (9),5426-5431 (2018); S. Heeg, L. Shi, L. V. Poulikakos, T. Pichler, and L. Novotny*.  

20. Extracting linear carbon chains to unravel the role of host carbon nanotubesACS Nano; 12 (8), 8477–8484 (2018); L. Shi, K. Yanagi, K. C. Cao, U. Kaiser, P. Ayala, T. Pichler*. 

19. Raman resonance profile of an individual confined linear carbon chain. Carbon; 139, 581-585 (2018); S. Heeg, L. Shi, L. V. Poulikakos, T. Pichler, and L. Novotny*. 

18. Unravel the Active Site in Nitrogen-Doped Double-Walled Carbon Nanotubes for Nitrogen Dioxide Gas Sensor. Physica Status Solidi (a); 1800004 (2018);W. Muangrat, W. Wongwiriyapan, V. Yordsri, T. Chobsilp, S. Inpaeng, C. Issro, O. Domanov, P. Ayala, T. Pichler, and L. Shi*.  

17. Isotope effect on the quantum thermal transport of carbyneApplied Physics Letters; 112 (9), 091906; (2018); Y. Wu, J. Zhao, G. Sun, L. Shi*.

 

2017:

16. Electronic band gaps of confined linear carbon chains ranging from polyyne to carbynePhysical Review Materials; 1, 075601; (2017); L. Shi, P. Rohringer, M. Wanko, A. Rubio, S. Wasserroth, S. Reich, S. Cambré, W. Wenseleers, P. Ayala, T. Pichler*.

15. The growth of new extended carbon nanophases from ferrocene inside single-walled carbon nanotubesphysica statussolidi (RRL) - Rapid Research Letters; 8, 1700158 (2017); H. Kuzmany*, L. Shi*, J. Kürti, J. Koltai,A. L. Chuvilin, T. Saito, T. Pichler.

14. 2D-Heterostructures Derived from MoS2-Templated, Cobalt-Containing Conjugated Microporous Polymer Sandwiches for Oxygen Reduction Reaction and Electrochemical Energy StorageChemElectroChem; 4, 709-715; (2017) K. Yuan, X. Zhuang, T. Hu, L. Shi, S. Sfaelou, U. Polnick, M. Forster, T. Pichler, T. Riedl, X. L. Feng, Y. W. Chen*, U. Scherf*.

13.Nitrogen-doped Porous Carbon/Graphene Nanosheets Derived from Two-Dimensional Conjugated Microporous Polymer Sandwiches with Promising Capacitive PerformanceMaterials Chemistry Frontiers; 1, 278-285; (2017)  K. Yuan, T. Hu, Y. Z. Xu, R. Graf, L. Shi, M. Forster, T. Pichler, T. Riedl, Y. W. Chen*, U. Scherf*. 

 

2016:

12.Polyyne electronic and vibrational properties under environmental interactionsPhysical Review B; 94, 195422; (2016)  M. Wanko, S. Cahangirov, L. Shi, P. Rohringer, Z. J. Lapin, L. Novotny, P. Ayala, T. Pichler, A. Rubio*.

11. Confined linear carbon chains as a route to bulk carbyneNature Materials; 15, 634-639; (2016) L. Shi, P. Rohringer,K. Suenaga, Y. Niimi, J. Kotakoski, J. C. Meyer, H. Peterlik, M. Wanko, S. Cahangirov, A. Rubio,Z. J. Lapin, L. Novotny, P. Ayala,T. Pichler*. (ESI: Highly cited paper)

(Ranking the 9thamong all the Nature Materials published papers; the 6,960thamong 5,073,035 scientific papers. The first in “Most read” and “Treading online” of Nature Materials website. Recommended by Nature Materials on “Twitter”. Reported bySciencedaily, Phys.org, C&EN, MRS, MailDaily英国每日邮报, Independent英国独立报, Sciencenet, HORIZON 2020 Project, ScienceNewsline, derStandard.de, ORF, Futurism, EurekAlert, International Busness Times, sci-news.com, Tim Harper, Next Big Future, 科技日报2016年4月16日(头版头条、主编点评),中国科技网,中国科学报,科学导报,科学网,国家自然科学基金委员会网站,新华网,环球网,人民网,新浪,网易,搜狐,澎拜,光明网,果壳网科学人,中国财经,今日头条,北京晨报,中国驻奥地利大使馆教育处专访…) This paper also has been recognized as record breaking result in chemistry (ACS Central Sciences2, 489(2016); DOI: 10.1021/acscentsci.6b00211). Awards to two compositions (UK and AT) based on the story of “Chain Growth” in the international composer competition “Sounds of Matter”.

10.Selective enhancement of inner tube photoluminescence in filled double-walled carbon nanotubesAdvanced Functional Materials; 26, 4874–4881; (2016) P. Rohringer, L. Shi, P. Ayala, T. Pichler*.

 

2015:

9. Straightforward generation of pillared, microporous graphene frameworks for use in supercapacitorsAdvanced Materials; 27, 6714–6721; (2015) K. Yuan, Y. Xu, J. Uihlein, G. Brunklaus, L. Shi, R. Heiderhoff, M. Que, M. Forster, T. Chassé, T. Pichler, T. Riedl, Y. W. Chen*, U. Scherf*.

8. Nanofibrous and graphene-templated conjugated microporous polymer materials for flexible chemosensors and supercapacitorsChemistry of Materials; 27, 7403–7411; (2015) K. Yuan, P. Guo-Wang, T. Hu, L. Shi, R. Zeng, M. Forster, T. Pichler, Y. W. Chen*, U. Scherf*.

7.Raman and XPS analyses of pristine and annealed N-doped double-walled carbon nanotubesPhysica Status Solidi (b); 2522558-2563; (2015) L. Shi*, M. Sauer, O. Domanov, P. Rohringer, P. Ayala, T. Pichler.

6. The origin of nondispersive Raman lines in the Dband region for ferrocene@ HiPco SWCNTs transformed at high temperaturesPhysica Status Solidi (b); 252, 2530-2535; (2015) H Kuzmany*, L Shi, T Pichler, J Kürti, J Koltai, F Hof, T Saito.

 

Before 2015:

5. Purification, separation and extraction of inner tubes from double-walled carbon nanotubes by tailoring density gradient ultracentrifugation using optical probesCarbon; 74, 282-290; (2014) P. Rohringer, L. Shi, X. Liu, K. Yanagi, T. Pichler*.

4. Nondispersive Raman lines in the D-band region for ferrocene functionalized carbon nanotubes; Physica Status Solidi (b); 251, 2457-2460; (2014) H. Kuzmany*, L. Shi, T. Pichler, C. Kramberger, A. Chernov, X. Liu. 

3.Carbon nanotubes from enhanced direct injection pyrolytic synthesis as templates for long linear carbon chain formation; Physica Status Solidi (b); 250, 2611–2615; (2013) L. Shi*, P. Rohringer, P. Ayala, T. Saito, T. Pichler. 

2. Ultra-thin double-walled carbon nanotubes: A novel nanocontainer for preparing atomic wiresNano Research; 4, 759-766; (2011) L. Shi, L. Sheng*, L. Yu, K. An, Y. Ando, X. Zhao*.

1. Effective and efficient purification of single-wall carbon nanotubes based on hydrogen treatment;  Chemical Physics Letters; 502, 101-106; (2011) L. Sheng, L. Shi, K. An, L. Yu, Y. Ando, X. Zhao*. 

 

参加学术会议:

邀请报告,口头报告 (Talks):

1. Sep. 2009 Chinese Physical Society Conference, Shanghai, China

2. Jan. 2014 The Global Human Resource Program Bridging across Physics and Chemistry Tokyo Metropolitan University, Tokyo, Japan

3. Oct. 2014 6thSzeged International Workshop on Advances in Nanoscience, Hungary

4. Jul. 2015 NT15: The Sixteenth International Conference on the Science and Application of Nanotubes, Nagoya, Japan

5. Jan. 2016 Fakultätsöffentliche Präsentation, Fakultät für Physik, Vienna, Austria

6. Aug. 2016 CNTFA16: 4th Carbon Nanotube Thin Film Electronics and Applications Satellite (NT16), Vienna, Austria

7. Oct. 2016 7thSzeged International Workshop on Advances in Nanoscience, Hungary

8. Mar. 2017 IWEPNM 2017, Kirchberg in Tirol, Austria

9. Nov. 2017 MRS Fall Meeting, Boston, United States of America

10. Jun. 2018 POLYMAT Spotlight, San Sebastian, Spain

11. Jul. 2018 Carbon 2018-The world conference on carbon, Madrid, Spain

12. Jul. 2018 NT18: 19th International Conference on the Science and Application of Nanotubes and Low-dimensional Materials, Beijing, China

13. Jul. 2019 NT19: 20th International Conference on the Science and Application of Nanotubes and Low-dimensional Materials, Würzburg, Germany

14. Jul. 2019 1st Symposium on Synthesis, Purification and Functionalization of Low-Dimensional Materials, Würzburg, Germany

15. Nov. 2019 第二十届全国光散射学术会议, Suzhou, China

16. Nov. 2019 The 7th International Conference On Tip-Enhanced Raman Spectroscopy, Xiamen, China

17. Nov. 2019 2019 广东材料发展论坛, Dongguan, China

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18. Dec. 2019 光电材料与技术国家重点实验室优秀中青年学术沙龙

 

张贴报告(Posters):

1. Jun. 2009 NT09, Beijing, China

2. Sep. 2010 Chinese Physical Society Conference, Tianjin, China (Best Poster Award)

3. Jul.  2011The Annual World Conference on Carbon: Carbon 2011, Shanghai, China

4. Mar. 2012 IWEPNM 2012, Kirchberg in Tirol, Austria
5. Oct. 2012 5thSzeged International Workshop on Advances in Nanoscience, Hungary

6. Mar. 2013 IWEPNM 2013, Kirchberg in Tirol, Austria

7. Jan. 2014 The global human resource program bridging across physics and chemistry, Japan

8. Mar. 2014 IWEPNM 2014, Kirchberg in Tirol, Austria

9. Oct. 2014 6thSzeged International Workshop on Advances in Nanoscience, Hungary

10. Mar. 2015 IWEPNM 2015, Kirchberg in Tirol, Austria

11. Jul.  2015 NT15, Nagoya, Japan

12. Feb. 2016 IWEPNM 2016, Kirchberg in Tirol, Austria

13. Jun. 2016 Nature Conference on Materials for Energy, Wuhan, China (Best Poster Award)

14. Aug. 2016 NT16, Vienna, Austria

15. Nov. 2017 Celebrating our Millie, Cambridge, Massachusetts, USA

16. Mar. 2018 IWEPNM 2018, Kirchberg in Tirol, Austria

17. Jun. 2019 14th Sino-US Forum on Nanoscale Science and Technology, Changsha, China

18. Aug. 2019 ChinaNANO 2019, Beijing, China (Best Poster Award)

19. Sep. 2019 Chinese Physical Society Autumn Conference, Zhengzhou, China

20. Oct. 2019 10th A3 Symposium of Emerging Materials: Nanomaterials for Electronics, Energy and Environment, Sungkyunkwan University, Korea

21. Nov. 2019 2D Materials: Visions of Future Research and Applications, Xi'an, China

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