Exfoliated MoS.sub.2 in Water without Additives

Many solution processing methods of exfoliation of layered materials have been studied during the last few years; most of them are based on organic solvents or rely on surfactants and other funtionalization agents. Pure water should be an ideal solvent, however, it is generally believed, based on so...

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Veröffentlicht in:	PloS one 2016-04, Vol.11 (4)
Hauptverfasser:	Forsberg, Viviane, Zhang, Renyun, Bäckström, Joakim, Dahlström, Christina, Andres, Britta, Norgren, Magnus, Andersson, Mattias, Hummelgård, Magnus, Olin, Håkan
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Schlagworte:	Analysis Chemical properties Molybdenum disulfide Taste buds Water
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description	Many solution processing methods of exfoliation of layered materials have been studied during the last few years; most of them are based on organic solvents or rely on surfactants and other funtionalization agents. Pure water should be an ideal solvent, however, it is generally believed, based on solubility theories that stable dispersions of water could not be achieved and systematic studies are lacking. Here we describe the use of water as a solvent and the stabilization process involved therein. We introduce an exfoliation method of molybdenum disulfide (MoS.sub.2) in pure water at high concentration (i.e., 0.14 ± 0.01 g L.sup.-1). This was achieved by thinning the bulk MoS.sub.2 by mechanical exfoliation between sand papers and dispersing it by liquid exfoliation through probe sonication in water. We observed thin MoS.sub.2 nanosheets in water characterized by TEM, AFM and SEM images. The dimensions of the nanosheets were around 200 nm, the same range obtained in organic solvents. Electrophoretic mobility measurements indicated that electrical charges may be responsible for the stabilization of the dispersions. A probability decay equation was proposed to compare the stability of these dispersions with the ones reported in the literature. Water can be used as a solvent to disperse nanosheets and although the stability of the dispersions may not be as high as in organic solvents, the present method could be employed for a number of applications where the dispersions can be produced on site and organic solvents are not desirable.
doi_str_mv	10.1371/journal.pone.0154522
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Pure water should be an ideal solvent, however, it is generally believed, based on solubility theories that stable dispersions of water could not be achieved and systematic studies are lacking. Here we describe the use of water as a solvent and the stabilization process involved therein. We introduce an exfoliation method of molybdenum disulfide (MoS.sub.2) in pure water at high concentration (i.e., 0.14 ± 0.01 g L.sup.-1). This was achieved by thinning the bulk MoS.sub.2 by mechanical exfoliation between sand papers and dispersing it by liquid exfoliation through probe sonication in water. We observed thin MoS.sub.2 nanosheets in water characterized by TEM, AFM and SEM images. The dimensions of the nanosheets were around 200 nm, the same range obtained in organic solvents. Electrophoretic mobility measurements indicated that electrical charges may be responsible for the stabilization of the dispersions. A probability decay equation was proposed to compare the stability of these dispersions with the ones reported in the literature. 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subjects	Analysis Chemical properties Molybdenum disulfide Taste buds Water
title	Exfoliated MoS.sub.2 in Water without Additives
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