Sulfur-Containing Carbon Nanospheres as Lubricant Additives for Antiwear and Friction Reduction

Sha Liu; Yixin Wang; Xiaozhi Zhang; Shujuan Liu; Qian Ye; Weimin Liu

doi:10.1021/acsanm.3c04047

Sulfur-Containing Carbon Nanospheres as Lubricant Additives for Antiwear and Friction Reduction

Sha Liu, Yixin Wang, Xiaozhi Zhang, Shujuan Liu, Qian Ye, Weimin Liu

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Herein, organic-inorganic hybrid sulfur-containing carbon nanospheres (SCNs) were successfully prepared by one-pot chemical oxidation polymerization of a thiophene monomer and then rigorous carbonization. On account of the good structural strength and organic phase derived from the precursor polythiophene, the as-prepared SCNs manifested remarkable oil-dispersing and tribological properties as lubricant nanoadditives. Subsequently, the friction mechanism of SCNs was deduced; the as-prepared SCNs had the capacity to take the shape of a strong protective film on the surface of friction pairs by intricate physical deposition and tribochemical reaction. So, the SCNs exhibited excellent tribological performance, including a high extreme pressure (950 N), an ultralow friction coefficient of less than 0.06, and a significant reduction in abrasion by 90%.

Original language	English
Pages (from-to)	18539-18547
Number of pages	9
Journal	ACS Applied Nano Materials
Volume	6
Issue number	19
DOIs	https://doi.org/10.1021/acsanm.3c04047
State	Published - 13 Oct 2023

Keywords

antiwear
friction reduction
nanoadditives
oil film
sulfur-containing carbon nanospheres

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10.1021/acsanm.3c04047

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title = "Sulfur-Containing Carbon Nanospheres as Lubricant Additives for Antiwear and Friction Reduction",

abstract = "Herein, organic-inorganic hybrid sulfur-containing carbon nanospheres (SCNs) were successfully prepared by one-pot chemical oxidation polymerization of a thiophene monomer and then rigorous carbonization. On account of the good structural strength and organic phase derived from the precursor polythiophene, the as-prepared SCNs manifested remarkable oil-dispersing and tribological properties as lubricant nanoadditives. Subsequently, the friction mechanism of SCNs was deduced; the as-prepared SCNs had the capacity to take the shape of a strong protective film on the surface of friction pairs by intricate physical deposition and tribochemical reaction. So, the SCNs exhibited excellent tribological performance, including a high extreme pressure (950 N), an ultralow friction coefficient of less than 0.06, and a significant reduction in abrasion by 90%.",

keywords = "antiwear, friction reduction, nanoadditives, oil film, sulfur-containing carbon nanospheres",

author = "Sha Liu and Yixin Wang and Xiaozhi Zhang and Shujuan Liu and Qian Ye and Weimin Liu",

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doi = "10.1021/acsanm.3c04047",

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T1 - Sulfur-Containing Carbon Nanospheres as Lubricant Additives for Antiwear and Friction Reduction

AU - Liu, Sha

AU - Wang, Yixin

AU - Zhang, Xiaozhi

AU - Liu, Shujuan

AU - Ye, Qian

AU - Liu, Weimin

PY - 2023/10/13

Y1 - 2023/10/13

N2 - Herein, organic-inorganic hybrid sulfur-containing carbon nanospheres (SCNs) were successfully prepared by one-pot chemical oxidation polymerization of a thiophene monomer and then rigorous carbonization. On account of the good structural strength and organic phase derived from the precursor polythiophene, the as-prepared SCNs manifested remarkable oil-dispersing and tribological properties as lubricant nanoadditives. Subsequently, the friction mechanism of SCNs was deduced; the as-prepared SCNs had the capacity to take the shape of a strong protective film on the surface of friction pairs by intricate physical deposition and tribochemical reaction. So, the SCNs exhibited excellent tribological performance, including a high extreme pressure (950 N), an ultralow friction coefficient of less than 0.06, and a significant reduction in abrasion by 90%.

AB - Herein, organic-inorganic hybrid sulfur-containing carbon nanospheres (SCNs) were successfully prepared by one-pot chemical oxidation polymerization of a thiophene monomer and then rigorous carbonization. On account of the good structural strength and organic phase derived from the precursor polythiophene, the as-prepared SCNs manifested remarkable oil-dispersing and tribological properties as lubricant nanoadditives. Subsequently, the friction mechanism of SCNs was deduced; the as-prepared SCNs had the capacity to take the shape of a strong protective film on the surface of friction pairs by intricate physical deposition and tribochemical reaction. So, the SCNs exhibited excellent tribological performance, including a high extreme pressure (950 N), an ultralow friction coefficient of less than 0.06, and a significant reduction in abrasion by 90%.

KW - antiwear

KW - friction reduction

KW - nanoadditives

KW - oil film

KW - sulfur-containing carbon nanospheres

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U2 - 10.1021/acsanm.3c04047

DO - 10.1021/acsanm.3c04047

M3 - 文章

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SN - 2574-0970

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SP - 18539

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JO - ACS Applied Nano Materials

JF - ACS Applied Nano Materials

IS - 19

ER -

Sulfur-Containing Carbon Nanospheres as Lubricant Additives for Antiwear and Friction Reduction

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Keywords

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