Scanning tunneling microscopy of platinum deposits on the basal plane of highly oriented pyrolytic graphite

Scanning tunneling microscopy images of Pt vapor deposited on the basal plane of highly oriented pyrolytic graphite, HOPG(bp), under ultrahigh vacuum have been recorded in air at room temperature. Areas of specimens masked during Pt deposition displayed characteristic corrugations associated with ba...

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Veröffentlicht in:	Langmuir 1990-07, Vol.6 (7), p.1316-1319
Hauptverfasser:	Eppell, Steve, Chottiner, Gary S, Scherson, Daniel A, Pruett, Gary
Format:	Artikel
Sprache:	eng
Schlagworte:	30 DIRECT ENERGY CONVERSION 300503 - Fuel Cells- Materials, Components, & Auxiliaries CARBON COATINGS DATA ELECTRON MICROSCOPY ELEMENTAL MINERALS ELEMENTS EXPERIMENTAL DATA GRAPHITE INFORMATION MEDIUM TEMPERATURE METALS MICROSCOPY MINERALS NONMETALS NUMERICAL DATA PLATINUM PLATINUM METALS SCANNING ELECTRON MICROSCOPY TRANSITION ELEMENTS ULTRAHIGH VACUUM VAPOR DEPOSITED COATINGS
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container_end_page	1319
container_issue	7
container_start_page	1316
container_title	Langmuir
container_volume	6
creator	Eppell, Steve Chottiner, Gary S Scherson, Daniel A Pruett, Gary
description	Scanning tunneling microscopy images of Pt vapor deposited on the basal plane of highly oriented pyrolytic graphite, HOPG(bp), under ultrahigh vacuum have been recorded in air at room temperature. Areas of specimens masked during Pt deposition displayed characteristic corrugations associated with bar graphite over 20 {times} 20 nm{sup 2} areas, with no indication of surface damage or contamination over much larger sections, 400 {times} 400 nm{sup 2}. Unmasked areas of samples with coverages in the range between ca. 10% and 40%, as estimated from x-ray photoelectron spectroscopy, contained small features (5-nm average lateral dimension) with internal structures of atomic dimensions. An analysis of variance of the maximum heights for clusters observed on representative areas of 10%, 28%, and 40% Pt/HOPG(bp) specimens provided evidence that the means (ca. 0.38 nm) are not significantly different (P = 0.80). Hence, the three distributions appear to have been drawn from the same parent distribution.
doi_str_mv	10.1021/la00097a021
format	Article
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Areas of specimens masked during Pt deposition displayed characteristic corrugations associated with bar graphite over 20 {times} 20 nm{sup 2} areas, with no indication of surface damage or contamination over much larger sections, 400 {times} 400 nm{sup 2}. Unmasked areas of samples with coverages in the range between ca. 10% and 40%, as estimated from x-ray photoelectron spectroscopy, contained small features (5-nm average lateral dimension) with internal structures of atomic dimensions. An analysis of variance of the maximum heights for clusters observed on representative areas of 10%, 28%, and 40% Pt/HOPG(bp) specimens provided evidence that the means (ca. 0.38 nm) are not significantly different (P = 0.80). 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Areas of specimens masked during Pt deposition displayed characteristic corrugations associated with bar graphite over 20 {times} 20 nm{sup 2} areas, with no indication of surface damage or contamination over much larger sections, 400 {times} 400 nm{sup 2}. Unmasked areas of samples with coverages in the range between ca. 10% and 40%, as estimated from x-ray photoelectron spectroscopy, contained small features (5-nm average lateral dimension) with internal structures of atomic dimensions. An analysis of variance of the maximum heights for clusters observed on representative areas of 10%, 28%, and 40% Pt/HOPG(bp) specimens provided evidence that the means (ca. 0.38 nm) are not significantly different (P = 0.80). 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Areas of specimens masked during Pt deposition displayed characteristic corrugations associated with bar graphite over 20 {times} 20 nm{sup 2} areas, with no indication of surface damage or contamination over much larger sections, 400 {times} 400 nm{sup 2}. Unmasked areas of samples with coverages in the range between ca. 10% and 40%, as estimated from x-ray photoelectron spectroscopy, contained small features (5-nm average lateral dimension) with internal structures of atomic dimensions. An analysis of variance of the maximum heights for clusters observed on representative areas of 10%, 28%, and 40% Pt/HOPG(bp) specimens provided evidence that the means (ca. 0.38 nm) are not significantly different (P = 0.80). Hence, the three distributions appear to have been drawn from the same parent distribution.</abstract><cop>United States</cop><pub>American Chemical Society</pub><doi>10.1021/la00097a021</doi><tpages>4</tpages></addata></record>
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subjects	30 DIRECT ENERGY CONVERSION 300503 - Fuel Cells- Materials, Components, & Auxiliaries CARBON COATINGS DATA ELECTRON MICROSCOPY ELEMENTAL MINERALS ELEMENTS EXPERIMENTAL DATA GRAPHITE INFORMATION MEDIUM TEMPERATURE METALS MICROSCOPY MINERALS NONMETALS NUMERICAL DATA PLATINUM PLATINUM METALS SCANNING ELECTRON MICROSCOPY TRANSITION ELEMENTS ULTRAHIGH VACUUM VAPOR DEPOSITED COATINGS
title	Scanning tunneling microscopy of platinum deposits on the basal plane of highly oriented pyrolytic graphite
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