Electrofiltration of hydrophobic colloids in fluidized bed bipolar electrodes

Seoud, Hicham F.

January 1980

A new process was developed for the filtration of hydrophobic colloids without the assistance of chemical coagulants. The process consists of passing the suspension through a bed of electrically conducting granules which are fluidized by the upward flow of the suspension and simultaneously exposed to a D.C. electric field. The process was demonstrated on an aqueous polystyrene latex of mean particle size 0.34 (mu)m. At optimum conditions a bed of iron granules retained 98% of the entering particles. / Experiments showed that the following variables increased the retention: increasing electric field strength, increasing static bed height, decreasing electrical conductivity of the feed, and decreasing the superficial velocity. Retention was independent of inlet particle concentration. / A model of the process was formulated including various mechanisms of deposition and surface forces. It contained no empirical factors from filtration experiments except the mean particle size in the effluent when electric field is applied. / Electrocoagulation of the polystyrene latex was observed under the microscope and the mechanisms involved were elucidated.

Colloids.

Electrodes.

Separation (Technology)

Synthesis and characterizations of nanostructured MnO2 electrodes for supercapacitors applications

Mothoa, Sello Simon

January 2010

<p>The objective of this research was to develop highly efficient and yet effective MnO2 electrode materials for supercapacitors applications. Most attention had focussed on MnO2 as a candidate for pseudo-capacitor, due to the low cost of the raw material and the fact that manganese is more environmental friendly than any other transition metal oxide system. The surface area and pore distribution of MnO2 can be controlled by adjusting the reaction time. The MnO2 synthesised under optimum conditions display high capacitance, and exhibit good cycle profile. This work investigates the ways in which different morphological structures and pore sizes can affect the effective capacitance. Various -MnO2 were successfully synthesised under low temperature conditions of 70 oC and hydrothermal conditions at 120 oC. The reaction time was varied from 1 to 6 hours to optimise the conditions. KMnO4 was reduced by MnCl.H2O under low temperature, whereas MnSO4.4H2O, (NH4)2S2O8 and (NH4)2SO4 were co-precipitated under hydrothermal conditions in a taflon autoclave to synthesise various -MnO2 nano-structures.</p>

Nanotechnology

Nanostructured materials

Electrodes.

Mixed ionic-electronic conductors for electrodes of barium cerate based SOFCs

Wu, Zhonglin

12 1900

No description available.

Direct energy conversion

Electrodes

The development of electroanalytical techniques

Wood, Peter

January 1979

This thesis describes the development of an electroanalytical technique for the estimation of compounds of biochemical interest. The technique involves titration with hypobromite using double electrode systems - the rotating ring disc electrode (RRDE) and the flow-through tubular double electrode (TDE). Hypobromite is continuously electregenerated at the upstream disc (generator) electrode and is transported by convection and diffusion to the downstream ring (detector) electrode where it is detected amperometrically. The presence of a reactive substrate in solution decreases the amount of titrant which reaches the ring, and from measurements of the generating and detecting currents the bulk concentration of substrate may be estimated. At pH 9.2 the amine group of amino acids reacts with two hypobromite molecules and some side chains (e.g. cystinyl, tyrosinyl, tryptophanyl) will also react. The reactivity of these side chains permits the titration of proteins. The titration response may be described theoretically which enables the calculation of the number of hypobromite molecules which react with one protein molecule ( ~500 for haemoglobin). With this chemical amplification the detection limit of the technique is ~10^-8 g ml^-1 for proteins and ~10^-8 M for amino acids. An electronic circuit has been developed which enables the detector electrode to control the rate at which titrant is generated. This autotitrator produces a generator current which is proportional to substrate concentration, and with the TDE should enable the continuous estimation of proteins as they are eluted from a chromatographic column. Proteins have been titrated at pH 9.2 and pH 5; the ratio of a protein's titration responses reflects its amino acid composition and, when combined with the extinction coefficient, enables the identification of proteins. Patent applications for this method of identification and for the autotitration technique have been submitted.

543

Electrochemical analysis : Electrodes

Principles and practice of hybrid pH sensors

Belford, R. E.

January 1985

No description available.

621.37

Ion selective electrodes

Mesoporous, microporous and nanocrystalline materials as lithium battery electrodes.

Milne, Nicholas A, Chemical Sciences & Engineering, Faculty of Engineering, UNSW

January 2007

In this study it was proposed to investigate the use of 3D metal oxides (specifically titanium oxides) as potential electrode materials for lithium ion batteries. Three different approaches were taken: mesoporous materials to increase the surface area and improve the capacity; nanocrystalline materials to increase the surface area and to investigate any changes that may occur using nanocrystals; and microporous materials that are more open, allowing rapid diffusion of lithium and higher capacities. Of the three categories of materials studies, mesoporous TiO2 was the least promising with low reversible capacities (20 mAh??g-1) due to densification resulting in a loss of surface area. In nanocrystalline rutile an irreversible phase change occurred upon initial intercalation, however after this intercalation occurred reversibly in a single phase mechanism giving capacities of 100 mAh??g-1. A trend in intercalation potential was observed with crystallite size that was related to the ability of the structure to relax and accept lithium. Doping of rutile yielded no real improvement. Brookite gave only low capacities from a single phase intercalation mechanism. TiO2 films produced by a novel electrochemical technique showed that while amorphous films give greater capacities, more crystalline (anatase) films give greater reversibility. Overall, microporous titanosilicates showed the most promise with sitinakite giving a reversible capacity of 80 mAh??g-1 after twenty cycles or double this when dried. The intercalation was found to occur by two steps that generate large changes in crystallite size explaining the capacity fade witnessed. While doping did not improve the performance, cation exchange has proven beneficial. The remaining titanosilicates did not perform as well as sitinakite, however a trend was observed in the intercalation potentials with the wavenumber of the Ti-O Raman stretch. This was due to the covalent nature of the bonding. Upon reduction an electron is added to the bond meaning the energy of the bond determines intercalation potential. Overall, most promise was shown by the microporous titanosilicates. The capacities of sitinakite after drying, are comparable to those of the "zero strain" material Li4Ti5O12. Investigation of the titanosilicates and their ion-exchanged derivatives is a promising path for new lithium-ion battery electrode materials.

Electrodes, Oxide.

Lithium cells.

Electrochemical behaviours of AB5 metal hydride electrodes with carbon nanotbues additions in Ni-MH batteries

Tsai, Ping-Ju (Ben), Materials Science & Engineering, Faculty of Science, UNSW

January 2007

AB5 hydrogen storage alloys have been intensively studied due to its superior ability to store hydrogen and release at ambient conditions. It is also a major component in the negative electrode of Ni-MH batteries. However, it has poor high rate capability and cycle life stability. Carbon nanotubes (CNTs) were found to store a tremendous amount of hydrogen, owing to the fact that they possess very large surface areas. It is because the hydrogen storage capacity is in general highly dependent on the surface area of the storing materials. The aim of this project has been to investigate the effect on electrochemical behaviours of Ab5 negative electrode in Ni-MH batteries by adding carbon nanotubes. The research also studied the influence of the ball milling treatments applied to both the Ab5 and CNTs. La0.59Ce0.27Nd0.08Pr0.06 (Ni0.76Mn0.08Al0.01Co0.15)5 AB5 alloy powder was used as active material in the negative electrode in the Ni-MH batteries, CNTs were used as additive, nickel powers as conductor in a three-electrode cell. Electrodes with compositions of AB5 + x wt.% CNTs (x=0, 5, 10) were studied. Activation, high rate capability and cycle life stability were investigated. The three-electrode cell in an open container with 6 M of KOH as electrolyte was connected to charge/discharge machine where galvanostatically charging and discharging took place. Hydrogenation of ball milled and as-received AB5 alloy powders were examined by conventional volumetric method. Morphology of AB5 and CNTs was examined by scanning electron microscopy (SEM) and transition electron microscopy (TEM), respectively. The phase identification and crystal lattice parameters were analysed by multi-purpose X-ray diffraction before and after ball milling treatments for both materials. The chemical composition of Ab5 alloy powders was tested using ICP chemical method. The results show the addition of CNTs in negative electrode in a Ni-MH battery enhanced the specific discharge capacity remarkably. A maximum discharge capacity of 252 mAh/g was observed for electrode with low energy ball-milled (LEBM) Ab5 with 5 wt.% of CNTs. This was due to the superior properties and great surface area of CNTs which allow more hydrogen to be stored and diffused onto the surface. Not only CNTs could act as a hydrogen reservoir in the negative electrode, it also acted as a conductor by building a conductive network between active material and nickel powders, and hence an increase in discharge capacity. However, the milling on CNTs alone will not improve the electrochemical properties of the electrode. In contrary, the activation profiles, high rate capability and cycle stability have been enhanced significantly when Ab5 alloy powders were ball-milled. The possible explanation is the smaller particle size and rough surface (and hence large surface area) obtained after ball milling induces a better hydrogen diffusion between the particles, as a result of shorter distance between particles after ball milling. Ball milling treatments on AB5 alloy powders did not improve the hydrogen absorption capacity. A highest value of 1.27 wt.% was observed for LEBM alloy powders. Ball milled samples have a slightly lower plateau pressure as compared with that of as-received alloy powders. In addition, only 4% of the maximum absorption capacity was lost after 10 repeated absorption and desorption cycles due to pulverisation of the particle over cycling. It can be concluded that LEBM Ab5 with addition of 5 wt.% CNTs, can significantly improve the electrochemical properties of negative electrode in Ni-MH batteries.

Hydrides.

Electrodes, Carbon.

On the behavior of the porous rotating disk electrode

Nam, Bomi.

January 1900

Thesis (Ph. D.)--University of Texas at Austin, 2008. / Vita. Includes bibliographical references.

Electrodes, Porous. Electrochemistry.

Stacked organic light-emitting diodes with metallic intermediate electrodes /

Sun, Jiaxin.

January 2008

Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2008. / Includes bibliographical references. Also available in electronic version.

Light emitting diodes. Electrodes.

Fabrication, characterisation and modification of a carbon film microelectrode to selectively monitor dopamine in vivo

McNally, Michael.

January 2005

Thesis (PhD)--Macquarie University (Division of Environmental & Life Sciences, Dept. of Chemistry & Biomolecular Sciences), 2005. / Typescript. Includes bibliographical references.