Electron tunneling across an interfacial water layer inside an STM junction: tunneling distance, barrier height and water polarization effect

被引：49

作者：

Hahn, JR ^{[1
]}

Hong, YA ^{[1
]}

Kang, H ^{[1
]}

机构：

[1] Pohang Univ Sci & Technol, Dept Chem, Pohang 790784, Gyeongbuk, South Korea

来源：

APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING | 1998年 / 66卷 / Suppl 1期

关键词：

D O I：

10.1007/s003390051184

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

We have studied electron tunneling characteristics across an aqueous STM capacitor junction by measuring the tunneling current and local barrier height as functions of junction distance and applied bias voltage for HOPG, Au and TaTe2 surfaces in air. The electron tunneling distance ranges from 7-20 Angstrom when the junction resistance is of the order of 10(8) Ohm. We suggest that the unusually low value of the barrier height (< 1.5 eV) originates from the three-dimensional nature of the electron tunneling through the interfacial water layer present inside the junction. An asymmetric variation in barrier height is observed with respect to the applied bias voltage at a junction distance of water monolayer thickness, which reflects the polarization of the water layer on the surface.

引用

页码：S467 / S472

页数：6

共 28 条

[11] Scanning tunneling microscopy based on the conductivity of surface adsorbed water. Charge transfer between tip and sample via electrochemistry in a water meniscus or via tunneling? [J].

Heim, M ;

Eschrich, R ;

Hillebrand, A ;

Knapp, HF ;

Guckenberger, R ;

Cevc, G .

JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 1996, 14 (02) :1498-1502

[12] The nature of a wet electron [J].

Kim, KS ;

Park, IJ ;

Lee, S ;

Cho, K ;

Lee, JY ;

Kim, J ;

Joannoupulos, JD .

PHYSICAL REVIEW LETTERS, 1996, 76 (06) :956-959

[13] ATOMISTIC MECHANISMS AND DYNAMICS OF ADHESION, NANOINDENTATION, AND FRACTURE [J].

LANDMAN, U ;

LUEDTKE, WD ;

BURNHAM, NA ;

COLTON, RJ .

SCIENCE, 1990, 248 (4954) :454-461

[14] CONTAMINATION-MEDIATED DEFORMATION OF GRAPHITE BY THE SCANNING TUNNELING MICROSCOPE [J].

MAMIN, HJ ;

GANZ, E ;

ABRAHAM, DW ;

THOMSON, RE ;

CLARKE, J .

PHYSICAL REVIEW B, 1986, 34 (12) :9015-9018

[15] DETAILED EXPERIMENTAL INVESTIGATION OF THE BARRIER-HEIGHT LOWERING AND THE TIP-SAMPLE FORCE GRADIENT DURING STM OPERATION IN AIR [J].

MEEPAGALA, SC ;

REAL, F .

PHYSICAL REVIEW B, 1994, 49 (15) :10761-10763

[16] Water structure at the graphite(0001) surface by STM measurements [J].

Nagy, G .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1996, 409 (1-2) :19-23

[17] A MOLECULAR-DYNAMICS STUDY OF WATER MONOLAYERS ON CHARGED PLATINUM WALLS [J].

NAGY, G ;

HEINZINGER, K .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1992, 327 (1-2) :25-30

[18] Apparent barrier height in scanning tunneling microscopy revisited [J].

Olesen, L ;

Brandbyge, M ;

Sorensen, MR ;

Jacobsen, KW ;

Laegsgaard, E ;

Stensgaard, I ;

Besenbacher, F .

PHYSICAL REVIEW LETTERS, 1996, 76 (09) :1485-1488

[19] QUANTIZED CONDUCTANCE IN AN ATOM-SIZED POINT-CONTACT [J].

OLESEN, L ;

LAEGSGAARD, E ;

STENSGAARD, I ;

BESENBACHER, F ;

SCHIOTZ, J ;

STOLTZE, P ;

JACOBSEN, KW ;

NORSKOV, JK .

PHYSICAL REVIEW LETTERS, 1994, 72 (14) :2251-2254

[20] TUNNELING BARRIERS IN ELECTROCHEMICAL SCANNING-TUNNELING-MICROSCOPY [J].

PAN, J ;

JING, TW ;

LINDSAY, SM .

JOURNAL OF PHYSICAL CHEMISTRY, 1994, 98 (16) :4205-4208

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