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Synthesis of fullerene nanowhiskers using the liquid – liquid interfacial precipitation method and their mechanical, electrical and superconducting properties

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ABSTRACT

Fullerene nanowhiskers (FNWs) are thin crystalline fibers composed of fullerene molecules, including C60, C70, endohedral, or functionalized fullerenes. FNWs display n-type semiconducting behavior and are used in a diverse range of applications, including field-effect transistors, solar cells, chemical sensors, and photocatalysts. Alkali metal-doped C60 (fullerene) nanowhiskers (C60NWs) exhibit superconducting behavior. Potassium-doped C60NWs have realized the highest superconducting volume fraction of the alkali metal-doped C60 crystals and display a high critical current density (Jc) under a high magnetic field of 50 kOe. The growth control of FNWs is important for their success in practical applications. This paper reviews recent FNWs research focusing on their mechanical, electrical and superconducting properties and growth mechanisms in the liquid–liquid interfacial precipitation method.

No MeSH data available.


Related in: MedlinePlus

Model showing the liquid–liquid interface (a) changing with manual mixing (b). The interface front between the C60-saturated toluene solution and IPA is assumed to move with a velocity v along the vertical direction of the glass bottle (c).
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Figure 3: Model showing the liquid–liquid interface (a) changing with manual mixing (b). The interface front between the C60-saturated toluene solution and IPA is assumed to move with a velocity v along the vertical direction of the glass bottle (c).

Mentions: A model describing the changes in the liquid–liquid interface upon manual mixing is shown in figure 3. The initial layered interface (figure 3(a)) is assumed to form a sinusoidally modulated interface (figure 3(b)) upon the manual mixing. The amplitude of this interface increases along the height of the glass bottle, a section of this wavefront is highlighted by the blue rectangle (figure 3(c)). This highlighted section is modeled by a cylinder with height h, radius r, basal area S, and volume V (figure 4(a)). The front of the liquid–liquid interface travels vertically with a velocity v.


Synthesis of fullerene nanowhiskers using the liquid – liquid interfacial precipitation method and their mechanical, electrical and superconducting properties
Model showing the liquid–liquid interface (a) changing with manual mixing (b). The interface front between the C60-saturated toluene solution and IPA is assumed to move with a velocity v along the vertical direction of the glass bottle (c).
© Copyright Policy - open-access
Related In: Results  -  Collection

License 1 - License 2
Show All Figures
getmorefigures.php?uid=PMC5036494&req=5

Figure 3: Model showing the liquid–liquid interface (a) changing with manual mixing (b). The interface front between the C60-saturated toluene solution and IPA is assumed to move with a velocity v along the vertical direction of the glass bottle (c).
Mentions: A model describing the changes in the liquid–liquid interface upon manual mixing is shown in figure 3. The initial layered interface (figure 3(a)) is assumed to form a sinusoidally modulated interface (figure 3(b)) upon the manual mixing. The amplitude of this interface increases along the height of the glass bottle, a section of this wavefront is highlighted by the blue rectangle (figure 3(c)). This highlighted section is modeled by a cylinder with height h, radius r, basal area S, and volume V (figure 4(a)). The front of the liquid–liquid interface travels vertically with a velocity v.

View Article: PubMed Central - PubMed

ABSTRACT

Fullerene nanowhiskers (FNWs) are thin crystalline fibers composed of fullerene molecules, including C60, C70, endohedral, or functionalized fullerenes. FNWs display n-type semiconducting behavior and are used in a diverse range of applications, including field-effect transistors, solar cells, chemical sensors, and photocatalysts. Alkali metal-doped C60 (fullerene) nanowhiskers (C60NWs) exhibit superconducting behavior. Potassium-doped C60NWs have realized the highest superconducting volume fraction of the alkali metal-doped C60 crystals and display a high critical current density (Jc) under a high magnetic field of 50 kOe. The growth control of FNWs is important for their success in practical applications. This paper reviews recent FNWs research focusing on their mechanical, electrical and superconducting properties and growth mechanisms in the liquid–liquid interfacial precipitation method.

No MeSH data available.


Related in: MedlinePlus