2017
DOI: 10.1016/j.surfcoat.2017.10.033
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Electrodeposition of tin coatings having enhanced corrosion resistance and anti-discoloration performance from tin (IV) sols

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Cited by 6 publications
(4 citation statements)
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“…It is reported earlier that deposits with finer crystalline size have shown improved anticorrosion ability [5]. Additionally, comparatively dense and compact Sn[1-a] and Sn[2-a] deposits might have blocked the positions susceptible to corrosion [33] and a better corrosion resistance property was achieved.…”
Section: Ocp Results and Tafel Plotmentioning
confidence: 96%
See 1 more Smart Citation
“…It is reported earlier that deposits with finer crystalline size have shown improved anticorrosion ability [5]. Additionally, comparatively dense and compact Sn[1-a] and Sn[2-a] deposits might have blocked the positions susceptible to corrosion [33] and a better corrosion resistance property was achieved.…”
Section: Ocp Results and Tafel Plotmentioning
confidence: 96%
“…Sn is well known in the food processing industry for its non-toxic corrosion protection property. Few other studies on the anticorrosive property of Sn were found in the matrix of sol particles [5] and graphene oxide [6]. These fabrications were performed by electrodeposition or low pressure cold spray for a deposit thickness ranging few to several micrometers [5][6][7].…”
Section: Introductionmentioning
confidence: 99%
“…The BE peaks at 485.58 and 493.8 eV correspond to the metallic Sn 0 state, whereas those at 486.78 and 495.28 eV describe the surface oxidized Sn 2+ state. [51][52][53] The Sn 2+ state can be described as a surface oxidized amorphous layer of Sn 2+ species formed during electrodeposition, as the surface oxidation of Sn to SnO x is a highly spontaneous reaction. 54 This conclusion is also supported by the powder XRD analysis, where only the metallic Sn phase was observed.…”
Section: Characterization Of Sn On Nfmentioning
confidence: 99%
“…SnCl4.5H2O digunakan sebagai sumber Sn 4+ untuk mensintesis nanopartikel SnS2 (Chaki et al, 2013). Dalam proses pelapisan logam (electroplating), SnCl4.5H2O digunakan Sebagai bahan yang pelapis yang tahan terhadap korosi karena memiliki kestabilan yang cukup tinggi (Wang et al, 2017). Pada proses polimerisasi 10-vinyl phenothiazine, SnCl4.5H2O memiliki kemampuan untuk menginisiasi pertumbuhan rantai polimer dengan memanfaatkan bi-kation bebas (Svyatkina et al, 1984).…”
Section: Potensi Riset Sncl45h2o DI Masa Depanunclassified