Judith Schmidt scite author profile

Individual single-walled carbon nanotubes (SWNTs) have been suspended in aqueous media using various anionic, cationic, nonionic surfactants and polymers. The surfactants are compared with respect to their ability to suspend individual SWNTs and the quality of the absorption and fluorescence spectra. For the ionic surfactants, sodium dodecylbenzene sulfonate (SDBS) gives the most well resolved spectral features. For the nonionic systems, surfactants with higher molecular weight suspend more SWNT material and have more pronounced spectral features.

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True solutions of single-walled carbon nanotubes for assembly into macroscopic materials

Davis

et al. 2009

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Translating the unique characteristics of individual single-walled carbon nanotubes into macroscopic materials such as fibres and sheets has been hindered by ineffective assembly. Fluid-phase assembly is particularly attractive, but the ability to dissolve nanotubes in solvents has eluded researchers for over a decade. Here, we show that single-walled nanotubes form true thermodynamic solutions in superacids, and report the full phase diagram, allowing the rational design of fluid-phase assembly processes. Single-walled nanotubes dissolve spontaneously in chlorosulphonic acid at weight concentrations of up to 0.5 wt%, 1,000 times higher than previously reported in other acids. At higher concentrations, they form liquid-crystal phases that can be readily processed into fibres and sheets of controlled morphology. These results lay the foundation for bottom-up assembly of nanotubes and nanorods into functional materials.

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Spontaneous high-concentration dispersions and liquid crystals of graphene

et al. 2010

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Graphene combines unique electronic properties and surprising quantum effects with outstanding thermal and mechanical properties. Many potential applications, including electronics and nanocomposites, require that graphene be dispersed and processed in a fluid phase. Here, we show that graphite spontaneously exfoliates into single-layer graphene in chlorosulphonic acid, and dissolves at isotropic concentrations as high as approximately 2 mg ml(-1), which is an order of magnitude higher than previously reported values. This occurs without the need for covalent functionalization, surfactant stabilization, or sonication, which can compromise the properties of graphene or reduce flake size. We also report spontaneous formation of liquid-crystalline phases at high concentrations ( approximately 20-30 mg ml(-1)). Transparent, conducting films are produced from these dispersions at 1,000 Omega square(-1) and approximately 80% transparency. High-concentration solutions, both isotropic and liquid crystalline, could be particularly useful for making flexible electronics as well as multifunctional fibres.

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Electrical and thermal transport properties of magnetically aligned single wall carbon nanotube films

et al. 2000

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Dense, thick films of aligned single wall carbon nanotubes and nanotube ropes have been produced by filtration/deposition from suspension in strong magnetic fields. Electrical resistivity exhibits moderate anisotropy with respect to the alignment axis, while the thermopower is the same when measured parallel or perpendicular to this axis. Both parameters have identical temperature dependencies in the two orientations. Thermal conductivity in the parallel direction exceeds 200 W/mK, within a decade of graphite.

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Resolving Intermediate Solution Structures during the Formation of Mesoporous SBA-15

et al. 2006

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The evolution of the solution microstructures during the formation of the hexagonal mesoporous material SBA-15 was studied by direct imaging and freeze-fracture replication cryo-TEM. A reaction mixture was sampled at different times after the addition of tetramethoxyorthosilane (TMOS) to an acidic solution of Pluronic P123 held at 50 degrees C. Solution microstructures were detected by direct imaging cryo-TEM in the time window of 6.5-40 min after the addition of the TMOS (t = 0). The micrographs revealed that the initial spheroidal micelles evolve into threadlike micelles, which become longer and straighter with time. Then bundles with the dimensions similar to those found in the final material appeared, although there was no sign of a hexagonal arrangement up to 40 min. Due to the appearance of a precipitate at 40 min the sample became too viscous, preventing clear observation of its content. To observe the structures present after 40 min, freeze-fracture replication was carried out as well. Such samples were collected also at 22 min and showed the presence of threadlike micelles in agreement with the direct imaging cryo-TEM micrographs. The 2 h samples showed some areas of hexagonal ordered structures, which become very clear at 2 h 50 min. The cryo-TEM measurements were carried out under the same reaction conditions used in earlier in situ EPR experiments, thus allowing us to correlate molecular level events with the microstructure shape evolutions. This showed that the elongation of the micelles is a consequence of a reduction of the polarity and the water content within the micelles due to silicate adsorption and polymerization. Similar experiments were carried out also on SBA-15 prepared with HCl and TMOS at 35 degrees C. The appearance of threadlike micelles, followed by clustering of the TLMs, was observed under these conditions as well, but the reaction rate was faster. This suggests that the observed mechanism for the formation of SBA-15 is general.

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Spontaneous Dissolution of Ultralong Single- and Multiwalled Carbon Nanotubes

et al. 2010

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We report that chlorosulfonic acid is a true solvent for a wide range of carbon nanotubes (CNTs), including single-walled (SWNTs), double-walled (DWNTs), multiwalled carbon nanotubes (MWNTs), and CNTs hundreds of micrometers long. The CNTs dissolve as individuals at low concentrations, as determined by cryo-TEM (cryogenic transmission electron microscopy), and form liquid-crystalline phases at high concentrations. The mechanism of dissolution is electrostatic stabilization through reversible protonation of the CNT side walls, as previously established for SWNTs. CNTs with highly defective side walls do not protonate sufficiently and, hence, do not dissolve. The dissolution and liquid-crystallinity of ultralong CNTs are critical advances in the liquid-phase processing of macroscopic CNT-based materials, such as fibers and films.

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Microstructural Characterization of Micro- and Nanoparticles Formed by Polymer−Surfactant Interactions

et al. 2004

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We have studied the nano- and microparticles formed by complexation of PDAC [poly(diallyldimethyl-ammoniumchloride)] and SDS (sodium dodecyl sulfate). The complexation phenomenon was characterized by light scattering and zeta-potential measurements. The nature of the complexes was revealed by direct-imaging cryogenic temperature transmission electron microscopy (cryo-TEM), showing nanometric details of the complexes formed around the point of neutralization. The images also reveal how those aggregates are solubilized by excess surfactant, first into faceted particles with threadlike micelles attached to their surfaces, prior to complete solubilization, then into lacelike aggregates, and finally into spheroidal micelles. The nanostructure of the complexes strongly suggests they are made of a hexagonal liquid crystalline phase. This was further supported by small-angle X-ray scattering (SAXS).

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Characterization of Block Copolymer Self-Assembly: From Solution to Nanoporous Membranes

et al. 2012

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Self-assembly of isoporous membranes of polystyrene-b-poly(4-vinylpyridine) (PS-b-P4VP) involves many parameters: the block copolymer composition, the solvent and its interactions with the respective blocks, composition of the casting solution, solvent evaporation, and immersion into a water bath. We characterized the self-assembly of PS-b-P4VP in solution in nearly neutral or P4VP-selective solvent and on the surface of a cast film. We used a combination of room temperature (RT) and cryogenic high-resolution scanning electron microscopy (cryo-HR-SEM) to study copolymer micellization in dried films, in solution, and on the membrane surface during evaporation. The solutions, with and without addition of small water amounts, were investigated by cryogenic transmission electron microscopy (cryo-TEM) and small-angle neutron scattering (SANS). We have shown that the starting point for membrane formation is a microphase-separated copolymer solution with the P4VP within the micelle core. As water is introduced, this structure is preserved as long as the system is far from equilibrium. Closer to equilibrium the PS blocks form the micelles core.

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Judith Schmidt

Individually Suspended Single-Walled Carbon Nanotubes in Various Surfactants

True solutions of single-walled carbon nanotubes for assembly into macroscopic materials

Spontaneous high-concentration dispersions and liquid crystals of graphene

Electrical and thermal transport properties of magnetically aligned single wall carbon nanotube films

Resolving Intermediate Solution Structures during the Formation of Mesoporous SBA-15

Spontaneous Dissolution of Ultralong Single- and Multiwalled Carbon Nanotubes

Microstructural Characterization of Micro- and Nanoparticles Formed by Polymer−Surfactant Interactions

Characterization of Block Copolymer Self-Assembly: From Solution to Nanoporous Membranes

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