Carbide and nanocomposite thin films in the Ti–Pt–C system

Lewin, Erik; Buchholt, Kristina; Lu, Jun; Hultman, Lars; Spetz, Anita Lloyd; Jansson, Ulf

doi:10.1016/j.tsf.2010.03.017

Cited by 19 publications

(8 citation statements)

References 25 publications

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“…This effect was more pronounced in the coatings with low amount of carbon and high amount of nickel. A similar phenomenon of grain size decrease initiated by third-element doping was observed in other carbide systems [21,37,43,44]. Råsander et.…”

Section: Discussionsupporting

confidence: 75%

Investigation of the Influence of Ni Doping on the Structure and Hardness of Ti-Ni-C Coatings

Daniel¹,

Souček²,

Bernátová³

et al. 2017

Journal of Nanomaterials

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Nanocomposite nc-TiC/a-C:H thin films exhibit unique combination of mechanical properties, high hardness, low friction, and wear. Selective doping by weak-carbide forming element can be used in order to specifically design the physical and chemical properties of nc-TiC/a-C:H coatings. In this paper we report on an effect of nickel addition on structure and hardness of the nc-TiC/a-C:H coatings. The effect of Ni alloying on the coating structure under conditions of DCMS and HiPIMS depositions was studied. The coating structure was correlated with the coating hardness. The grain size, the grain carbon vacancy concentration, and the mean grain separation were found to be the key parameters determining the coating hardness. Ni doping proved to have a significant effect on the coating microstructure which resulted in changes of the hardness of the deposited coatings.

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Section: Discussionsupporting

confidence: 75%

Investigation of the Influence of Ni Doping on the Structure and Hardness of Ti-Ni-C Coatings

Daniel¹,

Souček²,

Bernátová³

et al. 2017

Journal of Nanomaterials

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“…We did not observe a positive shift in Pt 4f or a negative shift in C 1s expected for Pt carbides, which would result from the charge transfer from Pt to C if Pt carbides would form during heat-treatment as suggested by previous studies. 35,36 Further analysis was carried out after calibrating with the sp 2 hybridized C 1s at 284.5 eV. Pt 4f 5/2 and 4f 7/2 profiles of these five Pt/C samples were fitted to three components: Pt 0 , Pt (II) and Pt (IV) species with peak separation and peak ratio constrained, as shown in Figure S3 and Table S2.…”

Section: Resultsmentioning

confidence: 99%

Size Influence on the Oxygen Reduction Reaction Activity and Instability of Supported Pt Nanoparticles

Sheng

Chen

Vescovo

et al. 2011

J. Electrochem. Soc.

143

115

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Size-dependent oxygen reduction reaction activity (ORR) and instability of Pt nanoparticles is of great importance in proton exchange membrane fuel cell applications. In this study, the size-dependence of ORR activity on Pt nanoparticles (NPs) was investigated on high-surface-area carbon supported Pt NPs below 5 nm in acidic electrolytes using rotating disk electrode method. The ORR activity was correlated to the estimated surface coverage by OH anion from cyclic voltammogram measurements and the surface composition and electronic structure of Pt NPs, which was studied using X-ray photoemission spectroscopy, and ultraviolet photoemission spectroscopy. The results revealed a size-independent ORR activity on Pt NPs below 5 nm, which was attributed to similar surface compositions and surface electronic structures of Pt NPs below 5 nm as well as comparable OH anion coverage at the potential where ORR was evaluated. In contrast, the instability of Pt NPs under accelerated potential cycling was found to be strongly dependent on the particle size.

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“…Fe, Ni, Pt and Al, can be dissolved into TiC to form ternary TMC systems. [2][3][4][5][6][7][8] Furthermore, we find that the presence of TM impurities greatly affects the stability and mobility of C atoms in the vicinity of the TM. Especially, the C vacancy formation energy is always lower in the presence of the impurities compared to pure TiC, and therefore the impurities will attract C vacancies.…”

Section: Discussionmentioning

confidence: 85%

“…[3][4][5] In experiments on thin films of nanocrystalline (Ti,M)C, where the carbide phase is embedded in an amorphous C matrix, i.e. (nc-(Ti,M)C/a-C), it has been shown that the alloying with weak carbide forming metals, M, yields a larger amount of C matrix in relation to the carbide phase for systems with identical carbon-to-metal ratio during growth compared to systems that only contain Ti and C. [2][3][4][5][6][7][8] Furthermore, it has been shown that during heat treatment at elevated temperatures there is also an increase of the C matrix phase for the alloyed samples which is not present in the binary systems. [3][4][5] When used as a surface coating material, the ternary solutions yield a lower friction coefficient than the binary samples while maintaining a relatively high degree of hardness.…”

Section: Introductionmentioning

confidence: 99%

A first principles study of the stability and mobility of defects in titanium carbide

Råsander,

Sanyal,

Jansson

et al. 2013

Preprint

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We have performed density functional calculations of the formation energies of substitutional transition metal (TM) defects, C vacancies, and C interstitial defects in TiC. In addition we have evaluated the migration energy barriers for C atoms in the presence of TM impurities. We find that the solubility of TM impurities taken from the 3d TM series is low and only Sc and V impurities can be dissolved into TiC at equilibrium. In addition, we find that the migration energy barriers of C in TiC are greatly affected by the presence of TM impurities: The migration barriers are generally lower in the presence of impurities compared to pure TiC and show a clear dependence on the atomic size of the TM impurities. We propose that the mobility of C in TiC will be the highest in the presence of TM impurities from the middle of the 3d TM series.

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Carbide and nanocomposite thin films in the Ti–Pt–C system

Cited by 19 publications

References 25 publications

Investigation of the Influence of Ni Doping on the Structure and Hardness of Ti-Ni-C Coatings

Investigation of the Influence of Ni Doping on the Structure and Hardness of Ti-Ni-C Coatings

Size Influence on the Oxygen Reduction Reaction Activity and Instability of Supported Pt Nanoparticles

A first principles study of the stability and mobility of defects in titanium carbide

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