Morphological Changes at a Silver Surface Resulting from Exposure to Hyperthermal Atomic Oxygen

and, Long Li; Yang, Judith C.; Minton, Timothy K.

doi:10.1021/jp0657843

Cited by 40 publications

(35 citation statements)

References 71 publications

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“…This phenomenon has been simulated by the ground based experiments [9,[17][18][19]25]. It is found that that Ag surface is easy to be oxidized as exposed in the AO environment, resulted in the formation of an oxide layer at initial stage.…”

Section: Resultsmentioning

confidence: 99%

Changes in the structure and tribological property of Ag film by LEO space environment exposure

Gao¹,

Hu²,

Sun³

et al. 2014

Applied Surface Science

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Section: Resultsmentioning

confidence: 99%

Changes in the structure and tribological property of Ag film by LEO space environment exposure

Gao¹,

Hu²,

Sun³

et al. 2014

Applied Surface Science

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“…Compared to the Au and Sb 2 O 3 , the Ag is an active element, and can be oxidized by the AO irradiation and space exposure. It was found that that Ag surface is easy oxidized as exposed in the AO environment and causes the formation of an oxide layer [26][27][28][29][30][31] . Due to the mismatch in volume between the Ag oxides and Ag, the internal stress would occur in the oxide layer and result in the flaking and cracking of the oxide layer [27] .…”

Section: Characterizationmentioning

confidence: 99%

Atomic Oxygen Effect on Sputtered MoS2-Ag Composite Film

Zhang¹,

He²

2017

dtetr

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ABSTRACT MoS 2 -Ag composite film was co-deposited by rf-sputtering technology and irradiated by atomic oxygen (AO) using a ground AO simulation facility. The structure, morphology, composition and tribological property of the composite films before and after the AO irradiation were investigated using X-ray diffraction (XRD), field emission scanning electron microscope (FESEM), X-ray photoelectron spectroscope (XPS) and ball-on-disk tribometer, respectively. The results revealed that the MoS 2 -Ag composite film was severely oxidized by the AO irradiation and the wear resistance was declined significantly; the MoS 2 phase was mainly oxidized to MoO 3 and the Ag was changed to a mixture of AgO and Ag 2 O; and the cracking phenomenon was obvious after the AO irradiation. The oxidation behavior was mainly controlled by the Ag, not the MoS 2 .

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“…On the other hand, hyperthermal atomic oxygen can penetrate and form Ag 2 O grains down to the depth of several m in a Ag single crystal. 60 Oxygen projectile with kinetic energy higher than ϳ10 eV, which was formed by the laser ablation during PLD, should have penetrated into the deep region of the Ag substrate. Also, it is known that single crystalline Ag can store atomic oxygen, and that annealing processes above 400°C in UHV will cause the subsurface oxygen to easily diffuse to the surface region.…”

Section: Subsurface Defectsmentioning

confidence: 99%

Initial stages of nickel oxide growth on Ag(001) by pulsed laser deposition

et al. 2009

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Submonolayers of nickel oxide films were grown on an Ag͑001͒ by pulsed laser deposition, and characterized in situ by both scanning tunneling microscopy and x-ray photoelectron spectroscopy. We observed quasitwo-dimensional growth of the film, and clearly identified several kinds of defects, such as embedded metallic Ni clusters and, notably, oxygen atoms, even while looking deeply into the substrate. These originated from Ni and O hyperthermal projectiles as well as from NiO clusters that were formed during laser ablation of a NiO target. Those defects played a role of nucleation sites in extending the nucleation stage of thin-film growth.

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Morphological Changes at a Silver Surface Resulting from Exposure to Hyperthermal Atomic Oxygen

Cited by 40 publications

References 71 publications

Changes in the structure and tribological property of Ag film by LEO space environment exposure

Changes in the structure and tribological property of Ag film by LEO space environment exposure

Atomic Oxygen Effect on Sputtered MoS2-Ag Composite Film

Initial stages of nickel oxide growth on Ag(001) by pulsed laser deposition

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