Use of functionalized WS2 nanotubes to produce new polystyrene/polymethylmethacrylate nanocomposites

Zhang, W.; Ge, Shouren; Wang, Y.; Rafailovich, Miriam; Dhez, Olivier; Winesett, D. A.; Ade, Harald; Shafi, Kurikka V. P. M.; Ulman, Abraham; Popovitz‐Biro, Ronit; Tenne, Reshef; Sokolov, Jonathan

doi:10.1016/s0032-3861(03)00053-3

Cited by 45 publications

(27 citation statements)

References 26 publications

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“…The IR bands at 1456 and 1402 cm −1 can be assigned to the -CH 2 -bending vibration and the C-O-H bending vibration [19,20]. The band at 1017 cm −1 is indicated as the P-O-H bond, which is similar to the FT-IR analysis of OPA ligand [21]. However, the peaks at 2956 and 1017 cm −1 of the OPA ligand were non existent in Figure 2(b), meaning that the OPA ligand was replaced by the BA ligand after the ligand exchange process.…”

Section: Resultssupporting

confidence: 62%

Structural and Optoelectronic Properties of CdSe Tetrapod Nanocrystals for Bulk Heterojunction Solar Cell Applications

Truong

Nguyen

Park

2013

International Journal of Photoenergy

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Semiconducting CdSe tetrapod nanoparticles were prepared, and their structural and optical properties were examined. The surface capping molecule, octylphosphonic acid, was replaced with butylamine after the particle synthesis. The exchange of surface ligands changed the physical properties of the nanocrystals, which resulted in a slight decrease in the nanoparticles size. The effects of changing surface ligands of CdSe tetrapod nanocrystals on the structural and optoelectronic properties were investigated, and it was found that the surfactant of nanoparticles could affect the device performance by enhancing the charge carrier separation at the active layer interfaces. Power conversion efficiency of the bulk heterojunction solar cells having the structure of glass/ITO/PEDOT:PSS/(CdSe + PCPDTBT)/Al was improved from 1.21% to 1.52% with the use of ligand-exchanged nanoparticles.

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Section: Resultssupporting

confidence: 62%

Structural and Optoelectronic Properties of CdSe Tetrapod Nanocrystals for Bulk Heterojunction Solar Cell Applications

Truong

Nguyen

Park

2013

International Journal of Photoenergy

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“…Considerable research has been conducted on polymer nanocomposites that incorporate WS 2 NPs into matrices of epoxy [40], polystyrene/poly(methylmethacrylate) [41], poly(propylene fumarate) [42], nylon 12 [43], and poly(phenylene) sulphide [44]. Due to the superior mechanical properties of WS 2 NPs, such as high stiffness and strength [45], ultrahigh-performance polymer nanocomposites have been produced [46].…”

Section: Introductionmentioning

confidence: 99%

Covalent functionalization/polycarboxylation of tungsten disulfide inorganic nanotubes (INTs-WS2)

2014

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KEYWORDStungsten disulfide nanotubes, inorganic nanotube of tungsten disulfide (INT-WS 2 ), Vilsmeier-Haack reagents, polycarboxylation, inorganic nanotube functionalization ABSTRACT Inorganic nanotubes of tungsten disulfide (INTs-WS 2 ) are insoluble in common solvents and practically inert, hindering their usefulness in both research and commercial applications. The covalent attachment of functional species onto the surface of INT-WS 2 is a critical first step in realizing the potential that INT-WS 2 offer for high-performance materials and products. Although a few attempts have been reported regarding preparing modified nanotubes, only a limited range of surface functionalities is possible with these methods. We have developed a versatile method, based on a modified, highly electrophilic acidic VilsmeierHaack reagent, to produce covalently bonded, polycarboxylated functional WS 2 nanotubes that are dispersible in polar liquids, including water. The surface polycarboxylated shell provides a means for additional derivatization, enabling matching compatibility of derivatized nanotubes to both hydrophobic and hydrophilic materials. Nanocomposites incorporating derivatized INT-WS 2 are expected to show improved properties as a result of enhanced interfacial compatibility, made possible by the large number of classes of functionalization available through the initial polycarboxylation step.

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“…Therefore, the moderate cost of such nanotubes may afford numerous applications in the field of polymer nanocomposites (eg. WS 2 inorganic nanotubes were functionalized with n-octadecyl phosphonic acid by sonication in toluene and blended with mixtures of PS and PMMA to form novel PS/PMMA/INT-WS 2 blend nanocomposites [12]). More particularly, INT likeMoS 2 has a remarkable reinforcing effect on the thermal and mechanical properties of isotactic polypropylene (i.e.…”

Section: Introductionmentioning

confidence: 99%

Isothermal Crystallization Kinetics of Novel Isotactic Polypropylene/MoS₂ Inorganic Nanotube Nanocomposites

2011

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Use of functionalized WS2 nanotubes to produce new polystyrene/polymethylmethacrylate nanocomposites

Cited by 45 publications

References 26 publications

Structural and Optoelectronic Properties of CdSe Tetrapod Nanocrystals for Bulk Heterojunction Solar Cell Applications

Structural and Optoelectronic Properties of CdSe Tetrapod Nanocrystals for Bulk Heterojunction Solar Cell Applications

Covalent functionalization/polycarboxylation of tungsten disulfide inorganic nanotubes (INTs-WS2)

Isothermal Crystallization Kinetics of Novel Isotactic Polypropylene/MoS₂ Inorganic Nanotube Nanocomposites

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Use of functionalized WS2 nanotubes to produce new polystyrene/polymethylmethacrylate nanocomposites

Cited by 45 publications

References 26 publications

Structural and Optoelectronic Properties of CdSe Tetrapod Nanocrystals for Bulk Heterojunction Solar Cell Applications

Structural and Optoelectronic Properties of CdSe Tetrapod Nanocrystals for Bulk Heterojunction Solar Cell Applications

Covalent functionalization/polycarboxylation of tungsten disulfide inorganic nanotubes (INTs-WS2)

Isothermal Crystallization Kinetics of Novel Isotactic Polypropylene/MoS2 Inorganic Nanotube Nanocomposites

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Isothermal Crystallization Kinetics of Novel Isotactic Polypropylene/MoS₂ Inorganic Nanotube Nanocomposites