Tungsten disulphide nanoparticles with diameters of about 200 nm modified by extractant trioctylamine (TOA) have been successfully prepared via an extraction-solvothermal method at a relative lower temperature. TOA was first saturated with 1 mol/l vitriol (H2SO4) aqueous solution, and then
HongS. Y.Popovitz-BiroR.PriorY.TenneR.‘Synthesis of SnS2/SnS fullerene-like nanoparticles: a superlattice with polyhedral shape’J. Am. Chem. Soc.125 (2003): 10470–10474
4.
ChhowallaM.AmaratungaG. A.‘Thin films of fullerene-like MoS2 nanoparticles with ultra-low friction and wear’J. Nature407 (2000): 164–167
5.
ImanishiN.KanamuraK.TakeharaZ.Synthesis of MoS2 thin film by chemical vapor deposition method and discharge characteristics as a cathode of the lithium secondary batteryJ. Electrochem. Soc.1392082–2087
6.
ChenJ.LiS. L.GaoF.XuQ.TanakaK. ‘Synthesis of open-ended MoS2 nanotubes and the application as the catalyst of methanation’ Chem. Commun. (2002): 1722–1723
7.
RapoportL.LvovskyM.LapskerI.LeshchinskyW.VolovikY.FeldmanY.TenneR.‘Friction and wear of bronze powder composites including fullerene-like WS2 nanoparticles’Wear249 (2001): 149–156
8.
RapoportL.BilikYu.FeldmanY.HomyonferM.CohenS. R.TenneR.‘Hollow nanoparticles of WS2 as potential solid lubricants’Nature387 (1997): 791–793
9.
RapoportL.FeldmanY.HomyonferM.CohenH.SloanJ.HutchisonJ. L.TenneR.‘Inorganic fullerene-like material as additives to lubricants: Structure-function relationship’Wear 225-229 (1999): 975–982
10.
GolanY.DrummondC.HomyonferM.FeldmanY.TenneR.IsraelachviliJ.‘Microtribology and direct force measurement of WS2 nested fullerene-like nano-structures’Adv. Mater.11 (1999): 934–937
11.
RapoportL.LvovskyM.LapskerI.LeshinskyW.VolovikY.FeldmanY.TenneR.‘Friction and wear of bronze powder composites including fullerene-like WS2 nanoparticles’Wear8680 (2001): 1–8
12.
CizaireL.VacherB.Le-MogneT.MartinJ. M.RapoportL.MargolinA.TenneR.‘Mechanisms of ultra-low friction by hollow inorganic fullerene-like MoS2 nanoparticles’Surf. Coat. Technol.160 (2002): 282–287
ZelenskiC. M.DorhoutP. K.‘Template synthesis of near-monodisperse microscale nonofibres and nonotubules of MoS2’J. Am. Chem. Soc.1204 (1998): 734–742
15.
NathM.GovindarajA.RaoC. N. R.‘Simple synthesis of MoS2 and WS2 nanotubes’Adv Mater134 (2001): 283–286
16.
EllmerK.MientusR.SeegerS.WeißV.‘Highly (001)-textured WS2−x films prepared by reactive radio frequency magnetron sputtering’Phys. Status Solidi (a)20114 (2004): R97-R100
17.
AlonsoG.PetranovskiiV.DelvalleM.Cruz-ReyesJ.Licea-ClaverieA.FuentesS.‘Preparation of WS2 catalysts by in situ decomposition of tetraalkylammonium thiotungstates’Appl. Catal. A. Gen.1971 (2000): 87–97
18.
ChenJ.LiS. L.GaoF.TaoZ. L.‘Synthesis and characterization of WS2 nanotubes’Chem. Mater.154 (2003): 1012–1019
19.
LiX. L.GeJ. P.LiY. D.‘An alternative route to large-scale MoS2 and WS2 inorganic fullerene-like nanostructures and nanoflowers’J. Chem. Eur.1023 (2004): 6163–6171
20.
SheaK. J.LoyD. A.WebsterO.‘Arylsilsesquioxane gels and related materials. New hybrids of organic and inorganic networks’J. Am. Chem. Soc.11417 (1992): 6700–6710
21.
ZhangZ. J.XueQ. J.ZhangJ.‘Structure and lubricating properties of dialkyldithiophosphate-modified Mo-S compounds nanocluster’Wear2091-2 (1997): 8–12
22.
ChenS.LiuW. M.YuL. G.‘Preparation of DDP-coated PbS nanoparticles and investigation of the anti-wear ability of the prepared nanoparticles as additive in liquid paraffin’Wear218 (1998): 153–158
23.
ChenS.LiuW. M.‘Preparation and characterization of surface-coated ZnS nanoparticles’Langmuir15 (1999): 8100–8104
24.
WuJ. F.FuX.‘A low-temperature solvothermal method to prepare hollow spherical WS2 nanoparticles modified by TOA’Mater. Lett.61 (2007): 4332–4335
25.
ShiH. Q.ZhouX. D.FuX.WangD. B.HuZ. S.‘Preparation of CdS nanowires and Bi2S3 nanorods by extraction-solvothermal method’Mater. Lett.6015 (2006): 1793–1795
26.
ShiH. Q.FuX.ZhouX. D.WangD. B.HuZ. S.‘A low-temperature extraction-solvothermal route to the fabrication of micro-sized MoS2 spheres modified by Cyanex 301’J. Solid State Chem.1796 (2006): 1690–1697
27.
ThomazeauC.GeantetC.LacroixM.HarléV.BenazethS.MarhicC.DanotM.‘Two cation disulfide layers in the WxMo(1−x)S2 lamellar solid solution’J. Solid State Chem.1601 (2001): 147–155
28.
PanW. H.LeonowiciM. E.StiefelE. I.‘Facile syntheses of new molybdenum and tungsten sulfido complexes. Structure of ‘Inorg. Chem.224 (1983): 672–678
XiaY. Q.LiuW. M.XueQ. J.‘Effect of several amide compounds as additives in liquid paraffin on friction and wear behavior of steel-steel and steel-aluminum alloy systems (in Chinese)’ Tribology 221 (2002): 40–43
37.
LiuW. M.GongG. Y.HeW. R.‘A study of the tribological behaviour and action mechanism of thiophosphates in rape seed oil’J. Synth. Lubr.93 (2004): 67–78
