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GAO Junfeng
Personal Information
  • Professional Title:Professor
  • Gender:Male
  • Alma Mater:大连理工大学
  • Degree:Doctoral Degree
  • Status:On the job
  • School/Department:物理学院
  • Discipline:Condensed Matter Physics
  • Business Address:物理学院323
  • E-Mail:gaojf@dlut.edu.cn
Profile

物理学院教授,入选海外高层次人才引进项目,辽宁省兴辽英才青年拔尖人才,大连市高端人才,国家科技专家库在库专家。主要从事低维材料生长机理的前沿研究。获得了教育部高校自然成果奖二等奖,辽宁省自然科学奖二等奖等奖励。从团簇科学出发,结合第一性原理计算和经典生长模型,研究了在石墨烯、硅烯和磷烯等二维材料的成核机理。通过理论模拟假设,提出了可稳定性磷烯团簇的衬底选择判据,被科技媒体PHYS.ORG等报导;首次提出单层磷烯锯齿边会卷曲成管状重构,解决了实验和理论对磷烯边界电子性质的冲突,并预测了磷烯管状边独特的热学特性;申请人理论设计了空气中稳定磷烯的方案,该方案显著提高磷烯寿命;申请人重新解释了3D Dirac 费米子材料Cd3As2的表面与表面重构,深入了认识了该重构对其电子性质的影响,并首次研究了该材料氧化的机理和保护机理。并在二维材料边结构、衬底选择和稳定性和其它低维表面的稳定性、重构等方面取得了显著的成果。在国际知名期刊J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、Adv. Mater., Adv. Funct. Mater.,Nanoscale等发表SCI论文近60篇,引用2000余次,H因子22。成果多次被Phys.Org、Nanowerk等国际科技媒体报道。

研究方向

   1、 衬底表面支撑团簇的结构、稳定性和演化

  2、 低维材料表面的结构、稳定性和重构。

  3、 二维材料边结构、重构。

  4、 MD/kMC等多尺度模拟材料的生长行为。

  5、 材料的物化性质、以及其在电子、光电、催化等应用。

科研项目

   1、基金委面上项目,60万,2021-2024,主持

   2、兴辽英才青年拔尖项目(XLYC1907163),50万,2020-2022,主持

   3、基金委重点项目《团簇结构预测和逆向设计的高效方法与程序》400万,2020-2023, 参与。

   4、海外高层次人才引进项目  主持 

   5、基金委青年基金项目 主持已完成

   6、博士后面上一等资助  主持已完成

   7、博士后特别资助         主持已完成

   8、中国工程物理研究院发展基金  主持已完成

荣誉奖励

   1、“兴辽英才计划”青年拔尖

   2、辽宁省自然科学二等奖(第二完成人):二维原子晶体的生长机理和缺陷调控

   3、2015 入选中国博士后基金资助者选介(100人)

   4、2014 辽宁省优秀博士学位论文

   5、2019 大连理工大学“课程思政”青年骨干教师


已发表论文: 

63. Panlong Zhai+, Yanxue Zhang+, Yunzhen Wu+, Junfeng Gao, Bo Zhang, Shuyan Cao, Yanting Zhang, Zhuwei Li, Licheng Sun, Jungang Hou* . Engineering active sites on hierarchical transition bimetal oxides/sulfides heterostructure array enabling robust overall water splitting. Nature Communications, 11, 5462 (2020).

62. 李仕琪, 张喆, 韩岩, 高峻峰*, 赵纪军*.  石墨烯和氮化硼层内异质界面生长机理的研究, 科学通报 https://doi.org/10.1360/TB-2020-1015

61. S.Chen, M.S.Bharathia, Junfeng Gao, Gang Zhang, Yong.-Wei Zhang*. Etching mechanisms, kinetics, and pattern formation in multilayered WSe2Materials Today Advances, 7, 100075 (2020)

       60.  Yunxu Chen, Jinxin Liu, Mengqi Zeng, Fangyun Lu, Tianrui Lv, Yuan Chang, Haihui Lan, Bin Wei, Rong Sun, Junfeng Gao,Zhongchang Wang, Lei Fu*. Universal growth of ultra-thin III-V semiconductor single crystals Nature Communications, 11, 3979 (2020).

, Xinhe Bao Step-confined thin film growth via near-surface atom migration ACS OMEGA  13, 1552–1557(2020)

       59.  Caixia Meng+, Junfeng Gao+,  Rongtan Li, Yanxiao Ning, Yuan Chang, Rentao Mu*, Qiang Fu*, Xinhe Bao Step-confined thin film growth via near-surface atom migration Nano Research  13, 1552–1557(2020)

      58.  Xiangjun Liu, Junfeng Gao, Gang Zhang, Jijun Zhao, Yong-Wei Zhang. Remarkable Role of Grain Boundaries in the Thermal Transport Properties of Phosphorene. ACS Omega 5, 17416–17422 (2020). 

57.  Dengfeng Li*,  Junfeng Gao*, Peng Cheng, Jia He, Yan Ying, Yanxiao Hu, Lan Chen*, Yuan Cheng, Jijun Zhao*, 2D boron sheets: structure, growth, electronic and thermal transport properties.  Adv. Funct. Mater.  30, 1904349 (2020). 

56.  Shuai Chen, Junfeng Gao, Bharathi Madurai Srinivasan,  Gang Zhang, Viacheslav Sorkin, Ramanarayan Hariharaputran, Yong-Wei Zhang*.   An all-atom kinetic Monte Carlo model forchemical vapor deposition growthof graphene on Cu(1 1 1) substrate. J. Phys: Conden. Mater.    32, 15  (2020). link

55.  Shuai Chen, Junfeng Gao, Bharathi Madurai Srinivasan,  Gang Zhang, Ming Yang, Jianwei Chai, Shijie Wang, Dongzhi Chi, Yong-Wei Zhang.  Revealing the Grain Boundary Formation Mechanism and Kinetics during Polycrystalline MoS2 Growth. ACS Appl. Mater. Interfaces    11, 46090 (2019)

54.  Xiaying Li+, Shiping Zhang+, Shuai Chen+, Xingli Zhang, Junfeng Gao*, Yong-Wei Zhang, Jijun Zhao, Xi Shen, Richeng Yu*, Yu Yang, Lin He, Jia-Cai Nie, Changmin Xiong, Ruifen Dou*.  Mo Concentration Controls the Morphological Transitions from Dendritic, to Semi-compact to Compact Growth of Monolayer Crystalline MoS2 on Various Substrates.  ACS Appl. Mater. Interfaces  DOI: doi.org/10.1021/acsami.9b14577 (2019). 

53.   Junfeng Gao*, Anna Cupolillo*, Silvia Nappini, Federica Bondino, Raju Edla, Vito Fabio, Raman Sankar, Yong-Wei Zhang*, Gennaro Chiarello, Antonio Po litano*, Surface Reconstruction, Oxidation Mechanism, and Stability of Cd3As2 Adv. Funct. Mater. 29, 1900965 (2019). link

52.  Yao Sun+(共同一作), Junfeng Gao+(共同一作), Yuan Cheng*, Yong-Wei Zhang, Kaiyang Zeng*, Design of the Hybrid Metal–Organic Frameworks as Potential Supramolecular Piezo-/Ferroelectrics J. Phys. Chem. C 123, 3122 (2019). link , 物理化学杂志highlight报道

51.   Shuai Chen+(共同一作), Junfeng Gao+(共同一作), Bharathi M Srinivasan, Gang Zhang, Viacheslav Sorkin, Ramanarayan Hariharaputran, Yong-Wei Zhang*, Origin of ultrafast growth of monolayer WSe 2 via chemical vapor deposition npj Computational Materials 5, 28. link

50.   Ziyu Hu, Junfeng Gao*, Shengli Zhang, Jijun Zhao, Wenhan Zhou, and Haibo Zeng. Topologically protected states and half-metal behaviors: Defect-strain synergy effects in two-dimensional antimoneneraphene. Phys. Rev. Materials. 3, 07400533 (2019). link

49.  Shuai Chen, Junfeng Gao, Bharathi M. Srinivasan, Gang Zhang, Viacheslav Sorkin, Ramanarayan Hariharaputran, Yong-WeiZhang*.  A kinetic Monte Carlo model for the growth and etching of graphene during chemical vapor deposition, Carbon 146, 399 (2019).link

48.  Shuai Chen, Junfeng Gao, Bharathi M Srinivasan, Gang Zhang, Viacheslav Sorkin, Ramanarayan Hariharaputran and Yong-Wei Zhang*. Unveiling the competitive role of etching in graphene growth during chemical vapor deposition, 2D Materials 6, 1 (2019).  link

47.  Shuai Chen, Junfeng Gao, Bharathi M Srinivasan and Yong-Wei Zhang*. A Kinetic Monte Carlo Study for Mono- and Bi-layer Growth of MoS2 during Chemical Vapor Deposition, Acta Physico-Chimica Sinica 35, 1119 (2019). link

46.  Yongqing Cai, Shuai Chen, Junfeng Gao, Gang Zhang, Yong-Wei Zhang. Evolution of Intrinsic Vacancies and Prolonged Lifetime of Vacancy Clusters in Black Phosphorene. Nanoscale 10.1039/C9NR06608J (2019).  link

45. Yongqing Cai, Junfeng Gao, Shuai Chen, Qingqing Ke, Gang Zhang, Yong-Wei Zhang. Design of Phosphorene for Hydrogen Evolution Performance Comparable to Platinum. Chem. Mater. doi.org/10.1021/acs.chemmater.9b03031 (2019).link

 

44.  Xiangjun Liu, Junfeng Gao, Gang Zhang*  and  Yong-Wei Zhang, Design of phosphorene/graphene heterojunctions for high and tunable interfacial thermal conductance, Nanoscale 10, 19854 (2018)

43.  Shichao Ding, Zhiling Li, Yuan Cheng*, Chunbao Du, Junfeng Gao, et al. Enhancing adsorption capacity while maintaining specific recognition performance of mesoporous silica: a novel imprinting strategy with amphiphilic ionic liquid as surfactant. Nanotechnology 29, 37 (2018).

42.  Junfeng Gao+, Ziwei Xu+, Shuai Chen+, Madurai S. Bharathi+, Yong‐Wei Zhang*, Computational Understanding of the Growth of 2D Materials, Advanced Theory and Simulations 1, 1800085 (2018).

41. Chunbao Du, Xiaoling Hu, Yuan Cheng*, Junfeng Gao, Yong-Wei Zhang, Kehe Su, Zhijian Lia, Nan Zhang, Ninghui Chang, Kaiyang Zeng*. Synergetically understanding the interaction between nano/microspheres and peptide for controllable drug loading via experimental and theoretical approaches. Materials Science and Engineering: C 83, 169 (2018)

40.  Junfeng Gao, Gang Zhang,* Boris I. Yakobson, Yong-Wei Zhang*. Kinetic theory for the formation of diamond nanothreads with desired configurations: a strain–temperature controlled phase diagram. Nanoscale 10, 9664 (2018).

39.  Qun Li, Jiabin Wu, Liang Huang, Junfeng Gao, Haowen Zhou, Yijie Shi, Qinhe Pan, Gang Zhang, Yu Du*, Wenxi Liang*, Sulfur dioxide gas-sensitive materials based on zeolitic imidazolate framework-derived carbon nanotubes, J. Mater. Chem. A 6, 12115 (2018).

38.  Minglei Sun, Jyh-Pin Chou, Lihong Shi, Junfeng Gao, Alice Hu, Wencheng Tang*, Gang Zhang*. Few-Layer PdSe2 Sheets: Promising Thermoelectric Materials Driven by High Valley Convergence. ACS Omega 3, 5971 (2018).

37.  Fengyu Li, Fuzhao Yi, Junfeng Gao, Haijun Zhang, and Zhongfang Chen, Modulating the electronic properties of perovskite via σ-π interfacial interactions: A computational study. APL Materials 6, 114203 (2018)

36.  Minglei Sun, Jyh-Pin Chou, Junfeng Gao, Yuan Cheng, Alice Hu, Wencheng Tang*, Gang Zhang*. Exceptional Optical Absorption of Buckled Arsenene Covering a Broad Spectral Range by Molecular Doping. ACS Omega 3, 514 (2018).


35.  Junfeng Gao, Yuan Cheng*, Tian Tian, Xiaoling Hu, Kaiyang Zeng, Gang Zhang*, Yong-Wei Zhang, Structure, Stability, and Kinetics of Vacancy Defects in Monolayer PtSe2: A First-Principles Study. ACS Omega 2, 8640 (2017).

34.  Xiangjun Liu, Junfeng Gao, Gang Zhang, Yong‐Wei Zhang. Unusual Twisting Phonons and Breathing Modes in Tube‐Terminated Phosphorene Nanoribbons and Their Effects on Thermal Conductivity. Advanced Functional Materials 27, 1702776 (2017).

33.  Junfeng Gao, Gang Zhang*, and Yong-Wei Zhang*. Vastly enhancing the chemical stability of phosphorene by employing an electric field. Nanoscale 9, 4219-4226 (2017).

32.  Xiangjun liu+, Junfeng Gao+(共同一作), Gang Zhang*, and Yong-Wei Zhang. MoS2-graphene in-plane contact for high interfacial thermal conduction. Nano Research 10, 2944 (2017).

31.  Nannan Han, Hongsheng Liu, Junfeng Zhang, Junfeng Gao* and Jijun Zhao. Atomistic understanding of the lateral growth of graphene from the edge of an h-BN domain: towards a sharp in-plane junction. Nanoscale 9, 3585 (2017).

30.  Zhigang Liu, Junfeng Gao, Gang Zhang, Yuan Cheng and Yong-Wei Zhang, From two-dimensional nano-sheets to roll-up structures: expanding the family of nanoscroll. Nanotechnology 28, 38 (2017).

29.  Junfeng Gao, Yong-Wei Zhang. Theoretical Studies on the Growth Mechanism of Chemical Vapor Deposition of Graphene on Metal Surface. Book chapter 8, Thermal Transport in Carbon-Based Nanomaterials, Micro and Nano Technologies. Elsevier (2017). link


28.  Junfeng Gao, Gang Zhang*, and Yong-Wei Zhang*. The Critical Role of Substrate in Stabilizing Phosphorene Nanoflake: A Theoretical Exploration. J. Am. Chem. Soc. 138, 4763 (2016).

27.  Junfeng Gao, Xiangjun Liu, Gang Zhang*, Yong-Wei Zhang*. Nanotube-terminated zigzag edges of phosphorene formed by self-rolling reconstruction. Nanoscale 8, 17940 (2016).

26.  Junfeng Gao, Gang Zhang*, Yong-Wei Zhang*. Exploring Ag(111) Substrate for Epitaxially Growing Monolayer Stanene: A First-Principles Study. Sci. Rep. 6, 29107 (2016).

25.  Hao Lu, Junfeng Gao, Ziyu Hu* and Xiaohong Shao*. Biaxial strain effect on electronic structure tuning in antimonene-based van der Waals heterostructures. RSC Adv. 6, 102724 (2016).


24.  Yubin Chen, Jingyu Sun, Junfeng Gao, et al. Growing Uniform Graphene Disks and Films on Molten Glass for Heating Devices and Cell Culture Adv. Mater. 27, 7839–7846 (2015).

23.  Junfeng Gao, Feng Ding*. First-principles Phase Diagram of Magic Sized Carbon Clusters on Ru (0001) and Rh (111) Surfaces. J. Phys. Chem. C 119, 11086–11093 (2015).

22.  Xiuju Song, Junfeng Gao, Yufeng Nie, Teng Gao, Jingyu Sun, Donglin Ma, Qiucheng Li, Yubin Chen, Chuanhong Jin, Alicja Bachmatiuk, Mark H. Rümmeli, Feng Ding*, Yanfeng Zhang*, Zhongfan Liu*. Chemical vapor deposition growth of large-scale hexagonal boron nitride with controllable orientation, Nano Research 8, 3164 (2015).

21.  Junfeng Gao, Feng Ding*. The Study on the Medium-Sized Carbon Islands on Ru(0001) Surface, Journal of Cluster Science 26, 347 (2015).

20.  Ruiqi Zhao, Junfeng Gao, Zhongfan Liu*, Feng Ding*. The reconstructed edges of the hexagonal BN. Nanoscale 7, 9723 (2015).

 

19.  Junfeng Gao, Feng Ding*. The Structure and Stability of Magic Carbon Clusters Observed in Graphene Chemical Vapor Deposition Growth on Ru(0001) and Rh(111) Surfaces. Angew. Chem. Int. Ed. 53, 14031 (2014).

18.  Lu Wang, Junfeng Gao, Feng Ding*. Application of Crystal Growth Theory in Graphene CVD Nucleation and Growth, Acta Chimica Sinica 72, 345 (2014).

17.  Lili Liu, Junfeng Gao, Xiuyun Zhang, Tianying Yan, Feng Ding*. Vacancy inter-layer migration in multi-layered graphene. Nanoscale 6, 5729 (2014).

 

16.  Hongsheng Liu, Junfeng Gao, Jijun Zhao*. From Boron Cluster to Two-Dimensional Boron Sheet on Cu(111) Surface: Growth Mechanism and Hole Formation, Scientific Reports

3, 3238 (2013).

15.  Lizhao Liu, Junfeng Gao, Xu Guo, Jijun Zhao*. Electromechanical properties of zigzag-shaped carbon nanotubes, Phys. Chem. Chem. Phys. 15, 17134 (2013).   

14.  Fen Li, Junfeng Gao, Jian Zhang, Fen Xu, Jijun Zhao*, Lixian Sun*. Graphene oxide and lithium amidoborane: a new way to bridge chemical and physical approaches for hydrogen storage. J. Mater. Chem. A 1, 8016-8022 (2013).

13.  Hongsheng Liu, Junfeng Gao, Jijun Zhao*. Silicene on Substrates: A Way To Preserve or Tune Its Electronic Properties. J. Phys. Chem. C 117, 10353 (2013).

12.  Junfeng Gao, Jijun Zhao*. Carbon Clusters Near the Step of Rh Surface: implication for the initial stage of graphene nucleation. Eur. Phys. J. D 67, 50 (2013).

11.  Junfeng Gao, Junfeng Zhang, Hongsheng Liu, Qinfang Zhang, Jijun Zhao*. Structures, mobilities, electronic and magnetic properties of point defects in silicene. Nanoscale 5, 17695 (2013).ESI 高被引)

 

10.  Yi Cui, Junfeng Gao, Li Jin, Jijun Zhao, Dali Tan, Qiang Fu*, Xinhe Bao*. An exchange intercalation mechanism for the formation of a two-dimensional Si structure underneath graphene. Nano Research 5, 352 (2012).

09.  Junfeng Gao, Jijun Zhao*, Feng Ding*. Transition Metal Surface Passivation Induced Graphene Edge Reconstruction. J. Am. Chem. Soc. 134, 6204-6209 (2012).

08.  Qinghong Yuan+, Junfeng Gao+(共同一作), Haibo Shu+, Jijun Zhao*, Xiaoshuang Chen*, Feng Ding*. Magic Carbon Clusters in the Chemical Vapor Deposition Growth of Graphene. J. Am. Chem. Soc. 134, 2970-2975 (2012).

07.  Lizhao Liu, Lu Wang, Junfeng Gao, JijunZhao*, Xingfa Gao, Zhongfang Chen. Amorphous structural models for graphene oxides, Carbon 50, 1690 (2012).

06.  Lizhao Liu, Yan Su, Junfeng Gao, Jijun Zhao*. Electronic and magnetic properties for Co13 clusters deposited on graphene: A first-principles exploration. Physica E 46, 6 (2012).

05.  Junfeng Gao, Jijun Zhao*. Initial geometries, interaction mechanism and high stabliliy of silicene on Ag(111) surface. Sci. Rep. 2, 861 (2012).

04.  Junfeng Zhang, Junfeng Gao, Lizhao Liu, Jijun Zhao*. Electronic and transport gaps of graphene opened by grain boundaries. Journal of Applied Physics 112, 053713 (2012).

 

03.  Junfeng Gao, Joanne Yip, Jijun Zhao, Boris I. Yakobson, Feng Ding*. Graphene Nucleation on Transition metal surface: Structure Transformation and Role of the Metal Step Edge. J. Am. Chem. Soc. 133, 5009-5015 (2011).

02.  Junfeng Gao, Qinghong Yuan, Hong Hu, Jijun Zhao*, Feng Ding*. Formation of Carbon Clusters in the Initial Stage of Chemical Vapor Deposition Graphene Growth on Ni(111) Surface. J. Phys. Chem. C 115, 17695 (2011).

01.  Qinghong Yuan, Hong Hu, Junfeng Gao, Feng Ding*, Zhifeng Liu, Boris I. Yakobson*. Upright Standing Graphene Formation on Substrates. J. Am. Chem. Soc. 133, 16072 (2011).

  

近期会议邀请报告

      9、16-18 11月 2019 邀请报告,第一届原子团簇与器件制造研讨会,南京    

      8、22-25 8月 2019  邀请报告,第十二届计算纳米科学与新能源材料国际研讨会,青岛

      7、28.Jul.- 1.Aug. 邀请报告  XXXI IUPAP Conference on Computational Physics,Hong Kong, China 

      6、10-14 7月 2019  邀请报告  中国材料大会(2019), 成都

      59-12  7月  2019  邀请报告   第二十二届全国半导体物理学术会议, 杭州

      423-28 June 2019 邀请报告/FF分会主席,10th International Conference on Materials for Advanced Technologies (ICMAT 2019),               Singapore

        3、19-22, 10月,2018 邀请报告,中国(国际)功能材料科技与产业高层论坛, 天津

      2、13-16, 9月, 2018  邀请报告/M分会主席 中国物理秋季年会(CPS2018),大连 

      1、20-24. Oct. 2016  邀请报告/Z分会主席,International Union of Materials Research Societies- The 17th International    Conference in Asia,Qingdao   





Reserach Focus
  • [1]纳米团簇结构和性质
  • [2]二维材料稳定性,生长机理
  • [3]计算物理 计算纳米材料
Social Affiliations

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Education Background
Work Experience
  • 2007-
    2012
    大连理工大学 | 凝聚态物理 | Doctoral Degree
  • 2003-
    2007
    大连理工大学 | 电子科学与技术 | Bachelor's Degree
  • 2000-
    2003
    昌邑三中 | 无
  • 2018-
    Now
     大连理工大学 物理学院 | 教授 
  • 2015-
    2018
     新加坡科技研究局(新加坡) | 研究科学家 
  • 2014-
    2015
     香港理工大学(中国香港) | 博士后 
  • 2012-
    2014
     北京计算科学研究中心 | 博士后 
Research Group
低维材料结构和生...
采用第一性原理方...