ELECTROCHEMICALLY INDUCED SURFACE-CHEMISTRY AND NEGATIVE ELECTRON-AFFINITY ON DIAMOND(100)

被引：31

作者：

PEHRSSON, PE

LONG, JP

MARCHYWKA, MJ

BUTLER, JE

机构：

[1] Naval Research Laboratory, Washington

来源：

APPLIED PHYSICS LETTERS | 1995年 / 67卷 / 23期

关键词：

D O I：

10.1063/1.115264

中图分类号：

O59 [应用物理学];

学科分类号：

摘要：

Hydrogenated single crystal (100) diamond surfaces subjected to an electrochemical (EC) treatment are selectively oxidized at room temperature. Part of the surface remains hydrogenated, except for a narrow transition region between the oxidized and hydrogenated regions. Ultraviolet photoelectron spectroscopy indicates that the transition region has negative electron affinity (NEA), as do the surfaces of hydrogenated crystals. The oxidized and hydrogenated parts of the EC-treated surfaces do not have NEA. A possible explanation is that contaminants eliminate NEA in the hydrogenated parts of the EC treated surfaces, but the transition region remains uncontaminated. None of the oxidized surfaces exhibit NEA. (C) 1995 American Institute of Physics.

引用

页码：3414 / 3416

页数：3

共 17 条

[1] HIGH-RESOLUTION ELECTRON-ENERGY-LOSS SPECTROSCOPIC STUDY OF EPITAXIALLY GROWN DIAMOND (111) AND (100) SURFACES [J].

AIZAWA, T ;

ANDO, T ;

KAMO, M ;

SATO, Y .

PHYSICAL REVIEW B, 1993, 48 (24) :18348-18351

[2] QUANTUM PHOTOYIELD OF DIAMOND(111) - STABLE NEGATIVE-AFFINITY EMITTER [J].

HIMPSEL, FJ ;

KNAPP, JA ;

VANVECHTEN, JA ;

EASTMAN, DE .

PHYSICAL REVIEW B, 1979, 20 (02) :624-627

[3] NORMALLY UNOCCUPIED STATES ON C(111) (DIAMOND) (2X1) - SUPPORT FOR A RELAXED PI-BONDED CHAIN MODEL [J].

KUBIAK, GD ;

KOLASINSKI, KW .

PHYSICAL REVIEW B, 1989, 39 (02) :1381-1384

[4] SECONDARY-ELECTRON EMISSION ENHANCEMENT AND DEFECT CONTRAST FROM DIAMOND FOLLOWING EXPOSURE TO ATOMIC-HYDROGEN [J].

MALTA, DP ;

POSTHILL, JB ;

HUMPHREYS, TP ;

THOMAS, RE ;

FOUNTAIN, GG ;

RUDDER, RA ;

HUDSON, GC ;

MANTINI, MJ ;

MARKUNAS, RJ .

APPLIED PHYSICS LETTERS, 1994, 64 (15) :1929-1931

[5] LOW-ENERGY ION-IMPLANTATION AND ELECTROCHEMICAL SEPARATION OF DIAMOND FILMS [J].

MARCHYWKA, M ;

PEHRSSON, PE ;

VESTYCK, DJ ;

MOSES, D .

APPLIED PHYSICS LETTERS, 1993, 63 (25) :3521-3523

[6] CHARACTERIZATION OF SURFACE CONDUCTIVE DIAMOND LAYER GROWN BY MICROWAVE PLASMA CHEMICAL-VAPOR-DEPOSITION [J].

MORI, Y ;

SHOW, Y ;

DEGUCHI, M ;

YAGI, H ;

YAGYU, H ;

EIMORI, N ;

OKADA, T ;

HATTA, A ;

NISHIMURA, K ;

KITABATAKE, M ;

ITO, T ;

HIRAO, T ;

IZUMI, T ;

SASAKI, T ;

HIRAKI, A .

JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS, 1993, 32 (7B) :L987-L989

[7]

NAKAHATA H, 1991, 2ND P INT S DIAM MAT, P487

[8] PROPERTIES OF INTERFACES OF DIAMOND [J].

NEMANICH, RJ ;

BERGMAN, L ;

TURNER, KF ;

VANDERWEIDE, J ;

HUMPHREYS, TP .

PHYSICA B, 1993, 185 (1-4) :528-538

[9] THE DIAMOND SURFACE - ATOMIC AND ELECTRONIC-STRUCTURE [J].

PATE, BB .

SURFACE SCIENCE, 1986, 165 (01) :83-142

[10]

PEHRSSON PE, 1995, IN PRESS 187TH P M E

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