Nanoscale Physics and Devices Laboratory

Prof. Hongjun GAO's

Nano Research Group

 Institute of Physics

 
 
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  ○2009 International Workshop on Nanostructures & Nanodevices    
 
 

 

 

Group Leader:

Professor Hongjun GAO (H. -J. Gao)

Research direction:

  • Synthesis of low-dimensional nanomaterials by high-temperature, CVD and other methods
  • Basic properties of functional organic molecules system by LT-MBE-LEED-STM
  • Electrical transport and electroluminescence properties of nanostructures by four-probe MBE-LEED-STM
  • Growth mechanism and structure steering of functional molecular nanostructures by VT-MBE-LEED-STM
  • Structures and properties of semiconductor-metal system by STM
  • Quantum properties of functional system by super low-temperature high-magnetism STM system
  • Theoretical calculations and simulations of nanoelectronic systems
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    Cooperation:
     

     

     
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    Highlight:
     
  • Diffusivity Control in Molecule-on-Metal Systems Using Electric Fields
    (Nano Lett., 2010, 10 (4), pp 1184–1188)
  • Directed self-assembly of monodispersed platinum nanoclusters on graphene Moiré template
    Appl. Phys. Lett. 95, 093106 (2009)     highlights by Nature Nanotech
    		•
  • Tunability of Supramolecular Kagome Lattices of Magnetic Phthalocyanines Using Graphene-Based Moire′Patterns as Templates
    (J. Am. Chem. Soc. 131, 14136–14137, 2009    ) highlights by Nature China
  • Highly ordered, Millimeter-scale, continuous, single crystalline graphene monolayer formed on Ru(0001)
    (Adv. Mater. 21,2777,2009)      highlights by Nature China
  • Constructing an Array of Anchored Single-Molecule Rotors on Gold Surfaces  
    (Phys. Rev. Lett. 101,197209,2008) highlights by Nature-Asia-Pacific, physicsworld, nanotechweb, and Phys. Rev. Lett. Editor’s suggestion.
  • Theory of Directed Nucleation of Strained Islands on Patterned Substrates 
    (Phys. Rev. Lett. 101,216102,2008)
  • Strain Induced Dewetting of a Molecular System: Bimodal Growth of PTCDA on NaCl
         (Phys. Rev. Lett.,100,186104,2008)
    • Boron nanowires for flexible electronics
    (Appl. Phys. Lett. 93, 122105 ,2008)      
    • Site-specific Kondo effect at ambient temperatures in iron-based molecules
    (Phys. Rew. Lett. 99, 106402, 2007)      
                                           more
     

    Publication:

    2010    2009    2008    2007     2006     2005    2004     2003    2002     2001     2000
     
    		 
         

    Copyright 2008, All rights reserved. Nanoscale Physics and Devices Laboratory, Institute of Physics, Chinese Academy of Sciences.
    P.O.Box 603, NanSanJie 8, ZhongGuanCun, Beijing 100190,China.
    Tel: 0086-10-62551106; Fax: 0086-10-62556598; E-mail:nano@aphy.iphy.ac.cn