1 "Surface studies by scanning tunneling microscopy" 49 : 57-, 1982.
2 "Surface electronic structure of Si resolved in real space" 56 : p.19721986.
3 "Study on the negative differential resistance properties of self-assembled organic thin films by using STM" 257-258 : 211-, 2005.
4 "Self-assembled mono- layers of alkanesulfonic and -phosphonic acids on amorphous iron oxide nanoparticles" 15 : 7111-, 1999.
5 "Room-temperature negative differential resis- tance in nanoscale molecular junctions" 77 : 1224-, 2000.
6 "Resonant tunneling diodes: models and properties" 86 : 641-, 1998.
7 "Negative differential resistance in patterned electroactive self-assembled mono- layers" 17 (17): 6923-, 2001.
8 "Molecular wires and gold nanoparticles as molewares for the molecular scale elec- tronics" 2 : 39-, 2002.
9 "Molecular rectifiers" 29 : 277-, 1974.
10 "Molecular random access memory cell" 78 (78): 3735-, 2001.
1 "Surface studies by scanning tunneling microscopy" 49 : 57-, 1982.
2 "Surface electronic structure of Si resolved in real space" 56 : p.19721986.
3 "Study on the negative differential resistance properties of self-assembled organic thin films by using STM" 257-258 : 211-, 2005.
4 "Self-assembled mono- layers of alkanesulfonic and -phosphonic acids on amorphous iron oxide nanoparticles" 15 : 7111-, 1999.
5 "Room-temperature negative differential resis- tance in nanoscale molecular junctions" 77 : 1224-, 2000.
6 "Resonant tunneling diodes: models and properties" 86 : 641-, 1998.
7 "Negative differential resistance in patterned electroactive self-assembled mono- layers" 17 (17): 6923-, 2001.
8 "Molecular wires and gold nanoparticles as molewares for the molecular scale elec- tronics" 2 : 39-, 2002.
9 "Molecular rectifiers" 29 : 277-, 1974.
10 "Molecular random access memory cell" 78 (78): 3735-, 2001.
11 "Large on-off ratios and negative differential resistance in a molecular electro- nic device" 286 : 1550-, 1999.
12 "Formation and structure of self- assembled monolayers" 96 (96): 1533-, 1996.
13 "Conductance of a Molecular Junction" 278 : 252-, 1997.
14 "A steady-state kinetic model can be used to describe the growth of self-assembled monolayers" 104 : 8182-, 2000.