ELECTRONIC-PROPERTIES OF JUNCTIONS BETWEEN SILICON AND ORGANIC CONDUCTING POLYMERS

被引：88

作者：

SAILOR, MJ ^{[1
]}

KLAVETTER, FL ^{[1
]}

GRUBBS, RH ^{[1
]}

LEWIS, NS ^{[1
]}

机构：

[1] CALTECH,DIV CHEM & CHEM ENGN,ARNOLD & MABEL BECKMAN LAB CHEM SYNTH,PASADENA,CA 91125

来源：

NATURE | 1990年 / 346卷 / 6280期

关键词：

D O I：

10.1038/346155a0

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

DIODES formed from semiconductor/metal interfaces often display non-ideal electronic properties. For instance, silicon/metal (Schottky) diodes made from n-type silicon and a variety of contacting metals exhibit only small differences in their rectification properties, despite theoretical and practical expectations that changes in the metal should effect changes in device properties1,2. Similarly, Schottky diodes formed on p-type silicon generally exhibit ohmic behaviour with poor rectification characteristics. This lack of electrical response to changes in the properties of the contacting metal phase is generally attributed to interfacial reactions that take place during the high-temperature thermal or electron-beam deposition of metals onto silicon3. Here we describe the fabrication of diodes using a low-temperature chemical procedure, in which contact to the semiconductor is made by a layer of the conducting organic polymer, polyacetylene. Unlike conventional metals, the electrical properties of polyacetylene can be manipulated through choice of the polymer dopant. The resultant organic/inorganic interfaces behave more ideally than contacts with conventional metals, in that changes in the electrical properties of the conducting polymer exert a large and predictable effect on the electrical properties of the resulting semiconductor/polymer diodes. © 1990 Nature Publishing Group.

引用

页码：155 / 157

页数：3

共 20 条

[1]

Bachrach R. Z., 1984, METAL SEMICONDUCTOR, P93

[2] DURHAM POLYACETYLENE - PREPARATION AND PROPERTIES OF THE UNORIENTED MATERIAL [J].

BOTT, DC ;

BROWN, CS ;

CHAI, CK ;

WALKER, NS ;

FEAST, WJ ;

FOOT, PJS ;

CALVERT, PD ;

BILLINGHAM, NC ;

FRIEND, RH .

SYNTHETIC METALS, 1986, 14 (04) :245-269

[3] THE STRUCTURE AND PROPERTIES OF METAL-SEMICONDUCTOR INTERFACES [J].

Brillson, L. J. .

SURFACE SCIENCE REPORTS, 1982, 2 (02) :123-326

[4] NEW SEMICONDUCTOR-DEVICE PHYSICS IN POLYMER DIODES AND TRANSISTORS [J].

BURROUGHES, JH ;

JONES, CA ;

FRIEND, RH .

NATURE, 1988, 335 (6186) :137-141

[5] NEW ROUTES TO CONJUGATED POLYMERS .1. A 2 STEP ROUTE TO POLYACETYLENE [J].

EDWARDS, JH ;

FEAST, WJ ;

BOTT, DC .

POLYMER, 1984, 25 (03) :395-398

[6] CHEMICAL BONDING AT THE SI-METAL INTERFACE - SI-NI AND SI-CR [J].

FRANCIOSI, A ;

WEAVER, JH ;

ONEILL, DG ;

CHABAL, Y ;

ROWE, JE ;

POATE, JM ;

BISI, O ;

CALANDRA, C .

JOURNAL OF VACUUM SCIENCE & TECHNOLOGY, 1982, 21 (02) :624-627

[7] N-TYPE SILICON PHOTOELECTROCHEMISTRY IN METHANOL - DESIGN OF A 10.1-PERCENT EFFICIENT SEMICONDUCTOR LIQUID JUNCTION SOLAR-CELL [J].

GRONET, CM ;

LEWIS, NS ;

COGAN, G ;

GIBBONS, J .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA-PHYSICAL SCIENCES, 1983, 80 (04) :1152-1156

[8] TRANSITION-METAL SILICIDES - TRENDS IN THE BONDING IN THE BULK AND AT THE INTERFACE [J].

GRUNTHANER, PJ ;

GRUNTHANER, FJ ;

MADHUKAR, A .

JOURNAL OF VACUUM SCIENCE & TECHNOLOGY, 1982, 21 (02) :637-638

[9]

KANICKI J, 1986, HDB CONDUCTING POLYM, P609

[10] POLYCYCLOOCTATETRAENE (POLYACETYLENE) - SYNTHESIS AND PROPERTIES [J].

KLAVETTER, FL ;

GRUBBS, RH .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1988, 110 (23) :7807-7813

← 1 2 →