Optimizing Carbon Nanotubes Dispersing Agents from the Point of View of Ion-selective Membrane Based Sensors Performance - Introducing Carboxymethylcellulose as Dispersing Agent for Carbon Nanotubes Based Solid Contacts

Due to their exceptional electrical properties, carbon nanotubes (CNTs) can be applied as conductive fillers to develop self-sensing cement-based matrices. In order to obtain an adequate self-sensing response, CNTs must be evenly dispersed through the cement matrix in a volume sufficient enough to create an electric percolation network. This is challenged by the difficulty of dispersing CNTs; therefore, there is a demand for an efficient dispersing agent that can be filled by superplasticiezers, which are products of known compatibility with cement and high availability. This research explores the use of four commercial superplasticizers available in Brazil, both naphthalene and ether polycarboxylate-based, as dispersing agents for CNTs in water. Ultrasonic energy was applied to aqueous solutions containing CNTs and superplasticizers. UV–Vis spectroscopy and ξ-potential measurements were used to investigate which superplasticizer was more effective to disperse the CNTs. Cement pastes were produced with the CNT dispersions and their electrical resistivity was measured. It was found that only superplasticizers without aliphatic groups in their structure were capable of dispersing CNTs in water. It was concluded that second-generation naphthalene-based superplasticizers were more efficient dispersing agents for CNTs than third-generation ether polycarboxylate-based ones for self-sensing applications.

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The Dispersion of MWCNTs within Epoxy by Treatment with Coupling and Dispersing Agents

Materials Science Forum ◽

10.4028/www.scientific.net/msf.546-549.2307 ◽

2007 ◽

Vol 546-549 ◽

pp. 2307-2312

Author(s):

Yan Zhao ◽

Yue Xin Duan

Keyword(s):

Carbon Nanotubes ◽

Epoxy Resin ◽

Polymer Matrix ◽

Combination Treatment ◽

Coupling Agent ◽

Dispersing Agent ◽

Multi Walled Carbon Nanotubes ◽

Walled Carbon Nanotubes ◽

Dispersing Agents

The dispersion of CNTs (Carbon Nanotubes) within polymer matrix is a big obstruction to restrict the application of CNTs. In this paper, the dispersion of MWCNTs(Multi-walled Carbon Nanotubes) within epoxy resin, which was improved by the coupling agent Volan and dispersing agent BYK, were studied. It showed that the best dispersing result of MWCNTs was obtained by combination treatment of Volan and BYK.

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Differential sub-cellular processing of single-wall carbon nanotubes via interfacial modifications

Journal of Materials Chemistry B ◽

10.1039/c5tb00705d ◽

2015 ◽

Vol 3 (30) ◽

pp. 6274-6284 ◽

Cited By ~ 6

Author(s):

Brian D. Holt ◽

Kris Noel Dahl ◽

Mohammad F. Islam

Keyword(s):

Carbon Nanotubes ◽

Fluorescence Lifetime ◽

Real Space ◽

Single Wall Carbon Nanotubes ◽

Cellular Trafficking ◽

Fluorescence Lifetime Imaging ◽

Single Wall Carbon ◽

Lifetime Imaging ◽

Cellular Processing ◽

Dispersing Agents

Real-space and fluorescence lifetime imaging reveal that non-covalently attached dispersing agents influence sub-cellular trafficking and localization of carbon nanotubes.

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Effect of the modified dispersing agent and milling time on the properties and particle size distribution of inkjet ink formulation for textile printing

Pigment & Resin Technology ◽

10.1108/prt-07-2020-0069 ◽

2020 ◽

Vol ahead-of-print (ahead-of-print) ◽

Author(s):

H. Abd El-Wahab ◽

A.M. Nasser ◽

H.M. Abd ElBary ◽

M. Abd Elrahman ◽

M. Hassanein

Keyword(s):

Surface Tension ◽

Particle Size ◽

Milling Time ◽

Polyester Fabric ◽

Light Fastness ◽

Content Type ◽

Textile Printing ◽

Dispersing Agent ◽

Dispersing Agents ◽

Ink Formulation

Purpose This paper aims to study the effect of the new modified dispersing agent, milling time of the properties and particle size distribution (PSD) of inkjet ink formulation for polyester fabric printing. Design/methodology/approach The study’s methods include preparation of different formulations of textile inkjet inks based on different types of dispersing agents, then applying and evaluating the prepared formulations on the polyester fabric. The properties of the prepared ink formulations were analyzed by measuring viscosity, surface tension and particle size. The current work is including the study of the effect of using different doses of different dispersing agents and the milling time on their characteristics. Also, the study was extended to evaluate the printed polyester by using the prepared inks according to light fastness, washing fastness, alkali perspiration fastness and crock fastness. Findings The results showed that the used dispersing agents and the different milling time enhanced the viscosity and dynamic surface tension in the accepted range, but it was largely cleared in the PSD which tends to perform the inks on the printhead and prevent clogging of nozzles. Light fastness, washing fastness, alkali perspiration fastness and crock fastness gave good results in agreement with this type of inkjet inks for textile printing. Research limitations/implications In this work, good results were obtained with this type of dispersing agent for inkjet ink formulations, but for other dispersing agents, other tests could be performed. The inkjet ink could also be formulated with other additives to prevent clogging of nozzles on the printhead. Practical implications These ink formulations could be used for printing on polyester fabric by the inkjet printing. Originality/value Recently, there was a considerable interest in the study of the effect of PSD on the inkjet inks to prevent clogging of nozzles on the printhead and to improve the print quality on the textile fiber.

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Dynamic Equilibria in Statistical and Nonlinear Physics of Uniform Stress Rotating Space Elevators (USRSE)

Applied Physics Research ◽

10.5539/apr.v11n6p56 ◽

2019 ◽

Vol 11 (6) ◽

pp. 56

Author(s):

Leonardo Golubovic ◽

Steven Knudsen

Keyword(s):

Carbon Nanotubes ◽

Materials Science ◽

Dynamic Equilibrium ◽

Outer Space ◽

Point Of View ◽

Uniform Stress ◽

The Earth ◽

Equilibrium Configurations ◽

Space Elevators ◽

Dynamic Equilibria

The discovery of ultra-strong materials such as carbon nanotubes and diamond nano-thread structures has recently motivated an enhanced interest for the physics of Space Elevators connecting the Earth with outer space. A new concept has recently emerged in space elevator physics: Rotating Space Elevators (RSE) [Golubović, L. & Knudsen, S. (2009). Classical and statistical mechanics of celestial scale spinning strings: Rotating space elevators. Europhysics Letters 86(3), 34001.]. Objects sliding along rotating RSE string (sliding climbers) do not require internal engines or propulsion to be transported from the Earth's surface into outer space. Here we address the physics of a special RSE family, Uniform Stress Rotating Space Elevators (USRSE), characterized by constant tensile stress along the string. From the point of view of materials science, this condition provides the best control of string’s global integrity. We introduce an advanced analytic approach to obtain the dynamic equilibrium configurations of USRSE strings. We use our results to discuss the applications of USRSE for spacecraft launching.

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Anionic, Cationic, and Nonionic Surfactants Used as Dispersing Agents for Carbon Nanotubes and Their Effect on Cement Hydration

Journal of Materials in Civil Engineering ◽

10.1061/(asce)mt.1943-5533.0003955 ◽

2021 ◽

Vol 33 (11) ◽

pp. 04021325

Author(s):

Oscar Aurelio Mendoza Reales ◽

Yhan Paul Arias Jaramillo ◽

Cáterin Ocampo ◽

Juan Carlos Ochoa Botero ◽

Jorge Hernán Quintero ◽

...

Keyword(s):

Carbon Nanotubes ◽

Nonionic Surfactants ◽

Cement Hydration ◽

Dispersing Agents

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Synthesis and Dispersion of Ni-Doped Cu2ZnSnS4

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.860.42 ◽

2020 ◽

Vol 860 ◽

pp. 42-50

Author(s):

Camellia Panatarani ◽

Hera Redianti ◽

Ferry Faizal ◽

Eka Cahya Prima ◽

Brian Yuliarto ◽

...

Keyword(s):

Thin Film ◽

Phase Transformation ◽

Zeta Potential ◽

Elemental Analysis ◽

High Energy ◽

Future Application ◽

Dispersing Agent ◽

Higher Temperature ◽

Average Size ◽

Dispersing Agents

This paper reports the preliminary study on the synthesis of Ni doped CZTS (Cu2ZnSnS4:Ni) particle 5 at.% of Cu by solution method and dispersion of the obtained particles by beads mill method at various dispersing agents (SDS, CTAB, and Tween80). The phase transformation of the obtained particles was analyzed from the XRD spectra and XRF elemental analysis. The phase transformation and amount of Ni-doped to particles was predicted employing commercially available analytical software tool Match! Version 2.x. Moreover, the dispersion characteristics were investigated includes size, size distribution, and zeta potential of bare particles in comparison to various dispersing agents. This characteristic related to the future application of CZTS as an absorber in a thin-film based PV. The XRD analysis showed that the obtained particle contained crystal structure of copper sulfate pentahydrate (75.9 %), Ni(HN2S2)2 (12.5 %), and Cu2ZnSnS4 (11.6%). The XRF elemental analysis showed that amount of Ni-doped was 6.8 at.%; it was higher than the initial design amount of Ni doping. The dispersion of suspended particles was the majority (90%) with an average size of 3.06 µm and only 10 % with size 255 nm. Beads-milling of particles without dispersing agents did not disintegrate agglomerated particles. It is highlighted dispersion only using magnetic stirred with SDS dispersing agent provides the best suspension with a majority (60%) in 166 nm and only 30 % with average size 3.06 µm with relatively high zeta potential (-17 mV). It was concluded that the presence of a multi-phase crystal needs to be resolved either by proper calcination at a higher temperature than 400°C or further heating at a higher temperature during film preparation. High-energy centrifugation of zirconia beads mill caused desorption of adsorbed steric stabilization of dispersing agent under investigation. Further investigation on the coating process to facilitated laboratory fabrication of thin-film absorber with SDS as a dispersing agent is necessary to carry out concerning the properties of the thin-film.

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Effect of Sodium Carbonate Concentration in Calgon on Hydrometer Analysis Results

Periodica Polytechnica Civil Engineering ◽

10.3311/ppci.9424 ◽

2018 ◽

Author(s):

Arshdeep Kaur ◽

George C. Fanourakis

Keyword(s):

Sodium Carbonate ◽

Clay Content ◽

The Other ◽

Sodium Hexametaphosphate ◽

Carbonate Content ◽

Fine Grained ◽

Carbonate Concentration ◽

Dispersing Agent ◽

Effective Combination ◽

Dispersing Agents

Calgon (a combination of sodium hexametaphosphate and sodium carbonate) has proved to be the most effective dispersing agent in determining the grain size distribution of fine-grained soils by means of the hydrometer analysis. Previous research on the effect of the sodium hexametaphosphate content of dispersing agents on the clay contents showed that the addition of sodium carbonate to sodium hexametaphosphate increases its dispersing effectiveness. Hence, Calgon 35:7 was used /recommended by many researchers/methods and proved to be the most effective dispersing agent. Although previous work focusing on the effect of varying the concentration of sodium hexametaphosphate in Calgon has been reported, the effect of the concentration of sodium carbonate in Calgon has not been assessed and reported. For this reason, in this investigation a series of hydrometer test analyses were conducted using the 152H and ASTM 152H: E100 hydrometers with Calgon in ratios of 35:0, 35:20 and 35:30. It was observed that with any increase in sodium carbonate content beyond 7 grams, the percentage clay content actually decreased tremendously in the case of hydrometer 152H. However, for the other hydrometer, Calgon (35:0) proved to be most effective combination. Thus, the increase in the sodium carbonate content in Calgon, beyond 7 g/ litre, is not recommended.

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Functionalized polypropylenes as efficient dispersing agents for carbon nanotubes in a polypropylene matrix; application to electromagnetic interference (EMI) absorber materials

Polymer ◽

10.1016/j.polymer.2009.11.012 ◽

2010 ◽

Vol 51 (1) ◽

pp. 115-121 ◽

Cited By ~ 95

Author(s):

Jean-Michel Thomassin ◽

Isabelle Huynen ◽

Robert Jerome ◽

Christophe Detrembleur

Keyword(s):

Carbon Nanotubes ◽

Electromagnetic Interference ◽

Matrix Application ◽

Polypropylene Matrix ◽

Dispersing Agents

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Large Scale Synthesis of Carbon Nanotubes

E-Journal of Chemistry ◽

10.1155/2009/756410 ◽

2009 ◽

Vol 6 (1) ◽

pp. 1-12 ◽

Cited By ~ 17

Author(s):

S. Karthikeyan ◽

P. Mahalingam ◽

M. Karthik

Keyword(s):

Carbon Nanotubes ◽

Large Scale ◽

Point Of View ◽

Chemical Characteristics ◽

Low Temperature Synthesis ◽

Temperature Synthesis ◽

Fundamental Point ◽

Commercial Applications ◽

Nanoscale Science ◽

Synthesis Of Carbon Nanotubes

Since the discovery of carbon nanotubes in 1991 by Iijima, they have been of great interest both from the fundamental point of view and for future applications. The most eye catching features of this structure are their electronic, mechanical, optical and chemical characteristics, which opens a way to future applications. These properties can even be measured on single nanotubes. For commercial applications, large quantities of purified nanotubes are needed. In this paper, recent research on preparation of carbon nanotubes with special reference to low temperature synthesis of high purity is reviewed. The reported achievements in this area will open up more knowledge on carbon nanostructured materials in many areas of emerging nanoscale science and nanotechnology

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