Large Amounts Of Copper Research Articles

Phase transformations in Al–Cu thin films: precipitation and copper redistribution

The (micro-)structural changes occurring in thin Al–Cu films of about 500 nm thickness and containing up to 1 at% Cu have been investigated. In particular, the copper distribution and the precipitation behaviour have been studied in situ during thermal cycling between 323 and 773 K. After slow cooling, large second-phase particles are observed which are mostly located at grain boundary triple points; the shape and size depend on the copper concentration. The average distance between these particles is about 16 μm, which is larger than the average grain size of approximately 1 μm. No second-phase particles have been observed within the aluminium grains. After cooling, a relatively large amount of copper (about 0.2 at%) as compared with bulk Al–Cu (0.001 at%) is not contained in second-phase particles. Most likely, this copper has segregated at grain boundaries, interfaces and dislocations. The temperature at which Al 2Cu starts to form in the thin films is well below the copper solvus for bulk material.

Rapid determination of sulfur in steel by electrolytic dissolution – inductively coupled plasma atomic emission spectrometry

A rapid determination of sulfur in steel by inductively coupled plasma atomic emission spectrometry (ICP-AES) following an electrolytic dissolution of a solid sample was developed. A solid sample was directly electrolyzed in an electrolysis cell and the resulting electrolyte was on-line introduced into an ICP-AES. The emission intensities obtained by ICP-AES were in linear proportion to the sulfur content in steel. When a sample was electrolyzed with 6 M HCl as electrolyte, the emission intensities of sulfur were much higher than those obtained by measuring standard solutions containing sulfate ions. It suggested that sulfur in the electrolyte solution was in the form of H 2S and introduced into the Ar plasma as H 2S gas which evaporated from the electrolyte solution during nebulization in a spray chamber. Sulfur in steel was determined at concentration levels of 25 μg g −1 with a relative standard deviation of 3.5%. A sample can be analyzed within 60 s. The detection limit (3 σ) of sulfur in steel is 0.6 μg g −1. It was found that large amounts of copper in steel interfered with the sulfur measurement in this analytical system. However, the influence of copper was reduced by using 12 M HCl as electrolyte solutions so that steel samples containing copper in sub% level could be analyzed in the present analytical system.

Use of the Sediment Quality Triad to Assess Metal Contamination in Freshwater Superficial Sediments from the Le An River, China

By integrating data on the chemistry, toxicity and benthic community structure, the sediment quality triad was used to evaluate the current situation of superficial sediments from the Le An River. This river has been strongly polluted with large amounts of copper, lead and zinc in waste water discharging from riparian mining and smelting activities. The response of the benthic environment was illustrated by ratio-to-reference (RTR) scale in corresponding triaxial graph. From upstream to downstream, the response intensity of three components showed sectional characteristics. The upstream area was relatively clean due to less disturbance. Within the middle stream area, extreme toxicity and serious deterioration of the benthic community structure could be mainly ascribed to strong acidity in drainage and high concentrations of multiple metals in superficial sediments, especially copper. Because of the river self-purification capability, pollution gradually declined and the sediment quality began to recover downstream. The situation was closely associated to the distribution of major pollution sources, therefore, source control and dredging operation on contaminated sediments in the middle stream area are required urgently.

Role of copper in Indian childhood cirrhosis

Of the cirrhoses that affect Indian children, Indian childhood cirrhosis (ICC) is a discrete clinical and histologic entity in which large amounts of copper are deposited in the liver. The evidence linking copper deposition to increased dietary copper intake in infancy was reviewed. Prevention of this feeding pattern prevents ICC, and the disease has now largely disappeared from many parts of India. Penicillamine, if given before the terminal clinical stage of ICC, reduces mortality from 92% to 53%. Long-term survivors show a sequence of histologic resolution, resulting either in inactive micronodular cirrhosis or in virtually normal histologic appearance. Twenty-nine treated ICC patients reexamined at 8.8 y of age (range: 6.3-13 y), 5-12 y after diagnosis, were well and had normal results from liver function tests. Clinical and epidemiologic evidence show that there must be excessive copper ingestion for ICC to develop, but the lack of an animal model, the inconstant relation between liver copper concentrations and liver damage, and the rarity of liver disease in adults suggests that other etiologic factors contribute. Two mechanisms are discussed: 1) that copper may be acting in synergy with a hepatotoxin, or 2) that there may be a genetic predisposition to copper-associated liver damage, as suggested recently for Tyrollean childhood cirrhosis. Although ICC is now rare, sporadic cases of an ICC-like disorder in infants continue to occur. There should be a greater awareness among pediatricians of this disease to enable early diagnosis. Penicillamine should be used early and adverse prognostic factors recognized as indications for early transplantation and unregulated water supplies should not be used to prepare infant feeds.

Association of copper to metallothionein in hepatic lysosomes of Long-Evans cinnamon (LEC) rats during the development of hepatitis [se e comments

The Long-Evans cinnamon (LEC) rat has a mutation homologous to the human Wilson's disease gene, leading to copper-induced hepatotoxicity. The mechanism of how excess copper damages the liver or what chemical form of copper is toxic is still unclear. In liver cytosol, copper levels were highest just before the onset of hepatitis and declined thereafter. In cytosol, total copper was bound to metallothionein (MT). Considerable amounts of both copper and iron accumulated in lysosomes with increasing age and development of liver damage. Lysosomal levels of presumably reactive non-MT-bound copper were increased. In severely affected livers, large amounts of copper were associated with insoluble material of high density which, upon ultrastructural information, was found to be derived from the lysosomes of Kupffer cells. This copper-rich material is considered to consist of polymeric degradation products of copper-MT. We suggest that chronic copper toxicity in LEC rats involves the uptake of copper-loaded MT into lysosomes, where it is incompletely degraded and polymerizes to an insoluble material containing reactive copper. This copper, together with iron, initiates lysosomal lipid peroxidation, leading to hepatocyte necrosis. Subsequent to phagocytosis by Kupffer cells, the reactive copper may amplify liver damage either directly or through stimulation of these cells.

Treatment of Wilson's disease: the historical background

When considering the management of patients with Wilson's disease it is necessary to understand the basis on which present views are founded. Wilson's original description of the disease he called 'hepato-lenticular degeneration' was based on four patients he had seen and studied himself and six cases culled from the literature. He emphasized the predominantly neurological picture, and believed that the hepatic lesion did not affect the clinical outcome, even though one of his own patients actually died from variceal haemorrhage. Bramwell challenged this view when, in 1916, he suggested that some patients might present with liver failure before the nervous system became involved, a forme fruste of the disease. Despite Rumpel's observation in 1913 that excess copper was present in the liver of a patient dying of this disease, its role in pathogenesis was not established until Cumings reported in 1948 that this metal was present in excess in both brain and liver of all patients dying of Wilson's disease. Until this time the situation had been, quite simply, no pathogenesis, no treatment. In his seminal paper Cumings made the modest suggestion that removal of copper from the tissues of these patients with the recently discovered metal-binding agent then known as British antilewisite (BAL) and now marketed as Dimercaprol, might arrest the progress of this hitherto universally fatal disease. Cumings's observation was the beginning of a therapeutic revolution. In the early 1950s, both Cumings and Denny Brown published the first results of treatment with BAL and they were able to report a considerable improvement in symptoms. Unfortunately the use of BAL was associated with problems; it had to be given by painful intramuscular injection often associated with fever and leucopenia, haematuria and abscess formation. Its use was something of an ordeal for the patient, and each course of injections was followed by a lesser improvement. At some stage a sulphonic acid derivative of BAL (Unithiol, Dimival) which can be given by mouth was used in the Eastern block countries, but perhaps because of cost and lack of availability, found little favour in the West, although its use was successful in one patient. Thus, though it became clear that the course of the disease could be influenced by therapy, a search for more effective and less toxic treatments was set in train. An alternative chelating agent, EDTA, was tried but proved disappointing, as did the use of intravenous aminoacids. The finding, at this time, that caeruloplasmin was absent or deficient in most patients suggested that replacement of this protein should be the specific form of treatment. This also proved to be illusory. However, the situation was radically altered for the better when I reported that penicillamine, a degredation product of penicillin, was to be found in the -SH state in the urine of patients treated with penicillin. This aminoacid is able to mobilize large amounts of copper for excretion in the urine, in both patients and normals, when given by mouth. As a result of this observation, almost overnight, Wilson's disease became one of the few inherited metabolic disease for which there was an effective therapy. So successful did this prove that Schouwink's observation that zinc salts could block copper absorption from the gut and could be of therapeutic value passed virtually unnoticed. It was almost a decade later that Hoogenraad and his colleagues introduced this as an alternative approach to the management of patients with Wilson's disease. Furthermore, they claimed that this avoided the problems of toxicity associated with penicillamine in some patients. A decade of penicillamine usage had indeed revealed a wide spectrum of toxic reactions varying from an early urticarial rash through skin damage, marrow depression to SLE and immune complex nephritis; one or other of these reactions

A calibration model to overcome non-spectral interferences in flame atomic absorption spectrometry

A calibration model has been developed in order to overcome matrix effects in atomic absorption measurements. The model uses two independent variables for analyte quantification (the amount of the sample and the amount of analyte added). The dependent variable is the absorbance measured. The method also allows matrix interferences to be controlled without prior knowledge of matrix composition. The method is applied to iron determination by FAAS in the presence of large amounts of copper. Direct calibration and standard addition are also performed in order to compare them with the new empirical model. Results show that the error in iron determination could be −42% when direct calibration is applied and +10% when the standard addition method is used, whereas the proposed model decreases the error to −20%.

Anodic stripping voltammetry of lead, cadmium and zinc in the presence of copper with an ion-exchange column

The determination of lead, cadmium and zinc by anodic stripping voltammetry is made difficult by the presence of large amounts of copper. For lead, ordinarily, 0.10 mg l–1 of lead is totally suppressed by the presence of 100 mg l–1 of copper (molar ratio of copper to lead = 3261.5) owing to the very high background currents brought about by undissolved copper atoms. For zinc and cadmium, intermetallic compound formation occurs, which affects the stripping peak currents of both metals. In this work, on-line ion-exchange separation was used prior to differential-pulse anodic stripping voltammetry (DPASV) for the determination of lead, zinc and cadmium in the presence of excess of copper. A commercially available resin, Dowex XFS 43084, allowed suppression of the copper stripping peak. An additional use of the ion-exchange column is to extend the useful range of DPASV for the determination of copper to the millimolar range.

The making of a mining district: Keweenaw native copper, 1500-1870

The Keweenaw Peninsula of northern Michigan is the only place on earth where large amounts of copper are found in the pure metallic state. The Making of a Mining District is the first book to fully document how the value of these unique deposits came to be recognized, from the time Europeans first became aware of the native copper shortly after 1500 to the establishment of the region as one of the great copper mining districts of the world.Krause focuses on the period from 1820 to 1865, when the district's true mining potential became clearer to many and when American science changed from a pleasant amateur diversion into a more rigorous professional discipline, a change clearly reflected in attitudes toward this unique region.

Structure of copper precipitates in a symmetrical silicon tilt bicrystal: High-resolution electron microscopy and energy-dispersive X-ray analysis

Abstract Precipitates have been found in silicon bicrystals after heat treatments. Most of them are localized in the grain-boundary (GB) plane where they form disc colonies. The GB precipitates have been examined using conventional electron microscopy, high-resolution electron microscopy and energy-dispersive X-ray analysis techniques. They contain a large amount of copper. The structure of the precipitates in the GB is b.c.c. and is likely to be disorderd. The grain-precipitate epitaxy relationship has been determined. A mechanism for the copper precipitation in disc colonies along the GB is proposed.

Effect of Selected Metals on Electroless Plating Catalyst

SUMMARYA hydrous melt catalyst synthesis method was used to prepare materials having large amounts of copper or tin (IV). Both additives are of commercial interest. Absorption studies showed that neither had an effect on catalyst deposition on a plastic substrate. Their effect on catalyst synthesis is discussed.

Muscle cell cultures in Menkes' disease: Copper accumulation in myotubes

We present 64Cu uptake studies in cultured muscle cells from a one-year-old patient with Menkes' disease. The cultured muscle cells from the patient showed a five-fold higher 64Cu uptake than control muscle cells. Copper uptake in muscle cells was of the same magnitude as that found in fibroblasts from the patient and also from other Menkes' patients. The copper content of a muscle biopsy from the patient was twice that of a control biopsy. The enhanced uptake is probably copper specific, since zinc uptake was unaltered in both muscle cells and fibroblasts from the patient. Cytochrome c oxidase in the muscle of the patient was reduced to one-third of the value for controls, which is in agreement with the hypothesis that in Menkes' disease copper accumulates in a biologically non-active form. However, in cultured muscle cells and fibroblasts from the patient the cytochrome c oxidase activity was in the normal range, probably because of the relatively large amount of copper already available in the culture medium.

Superconducting magnets and their applications

Superconducting magnets are now being used in such diverse applications as medical imaging, fusion research, and power conditioning. Steady improvement in the understanding of instability and quenching has allowed increases in current density and compactness of winding. The resulting reduction in winding size has allowed the construction of economical magnets for imaging, acceleration, and high-resolution spectrometers. Large magnets for fusion and energy applications have been made possible by composite conductors containing large amounts of copper or aluminum. It is noted that the advent of high-temperature superconductors may hold the promise of very-high-field magnets. Meanwhile, low-temperature superconductors capable of generating fields up to 30 T have been developed. In either case, structural materials of greater strength than are now available and novel construction techniques will be needed. >

Determination of antimony, arsenic, bismuth, cadmium, cobalt and silver in complex sulphide minerals by flame atomic absorption spectrometry

A method is described for determining antimony, arsenic, bismuth, cadmium, cobalt and silver in ores, concentrates, residues and related materials from pilot-plant metallurgical test work on complex sulphides. Following direct decomposition with aqua regia, the various elements were determined by atomic absorption spectrometry using an air-acetylene flame, except for arsenic, which was determined with a dinitrogen oxide-acetylene flame. Calibration graphs were constructed for solutions prepared in 3.5 M hydrochloric acid. No interferences were observed. The proposed method was employed successfully for the determination of these six elements in complex sulphide materials containing large amounts of copper, lead, zinc or iron. The results obtained for antimony, arsenic, bismuth, cadmium, cobalt and silver in some Canadian Certified Reference Material Project ores and concentrates by the proposed method were in good agreement with the certified values. The relative standard deviations were, in general, 3% or better.

The dissolution behaviour of iron, chromium, molybdenum and copper from pure metals and from ferritic stainless steels

Dissolution rates of iron, chromium, molybdenum and copper as pure metals and as components of three ferritic stainless steels in neutral solutions (distilled H 2O and 0.5 M NaCl) and acid solutions (1 M and 9.2 M of HNO 3 and H 2SO 4) are presented. The relative position of dissolution rates of the elements is in general the same in pure metal and alloy dissolution. Selective dissolution of iron and simultaneous surface enrichment of chromium is observed under all the investigated conditions. A slight surface enrichment of molybdenum is found upon exposure in the neutral and sulfuric acid solutions but not in nitric acid solution. Large amounts of copper are found in the surface of the copper-containing steel exposed to 1 MH 2SO 4. Evidence is presented which shows that an increase in electrolyte volume decreases the thickness and changes the composition of the passive film. It is believed that this hardly ever mentioned effect is due to an increased amount of dissolution of the film components upon increased volume of electrolyte.

A preliminary study of Cu-, Cd- and Zn-binding components in the hepatopancreas of Palaemon elegans (Crustacea: Decapoda)

1. 1. Three low molecular weight, metal-binding components have been isolated from the hepatopancreas of the shrimp Palaemon elegans. 2. 2. The two larger components P-I (11–15,000) and P-II (4–6000) were associated with large amounts of copper in field-collected and copper-exposed shrimps and with cadmium in shrimps exposed to elevated Cd concentrations. 3. 3. A smaller component, P-III was associated with zinc. 4. 4. The recovery of these components was dependent upon the use of a protease inhibitor and the reducing agent mercaptoethanol (2-M) during the separation procedure. 5. 5. Copper, zinc and cadmium are not evenly distributed between individual tissues of P. elegans, the highest concentrations occurring in the hepatopancreas, gills and eyes.

Bronze Age Copper Smelting

In the Bronze Age, large quantities of copper were extracted by means of a complicated multistage process from the ore chalcopyrite, CuFeS2, largely mined in the Eastern Alps and the Carpathians. The methods used for ore dressing and roasting, slagging of the iron and smelting of the copper matte are now well understood; only the final conversion of the matte to pure copper is still under discussion. It now appears that an oxidising atmosphere was used for this final step. This large-scale Bronze Age technology is considered from the physical, chemical and archaeological points of view, and some aspects of alloying as well as implications for the analysis of Bronze Age artefacts are briefly introduced.

Anodic stripping voltammetric determination of antimony in gunshot residue

Anodic stripping voltammetry (a.s.v.) ata mercury film on a glassy carbon working electrode was utilized to determine the amount of antimony from hand swabs. The procedure described is useful for determining 10–120 ng of antimony found in the residue ou the hands of an individual suspected of discharging or handling a firearm. The voltammogram provides an elemental pattern recognizable as gunshot residue containing small amounts of antimony and much larger amounts of copper and lead. The amount of antimony in a variety of gunshot-residue samples was determined by both anodic stripping voltammetry and graphite-furnace atomic absorptiou spectrometry for comparison purposes. Anodic stripping voltammetry is excellent for observation of the multielement pattern which proves to be very useful for gunshot-residue samples.

Immobilization of 5-methylene-2-(2′-thiazolylazo)-anisole on silica and its application in preconcentration of palladium

5-Methylene-2-(2′ -thiazolylazo)-anisole can be immobilized on silica via a SiOSiC moiety. Distribution coefficient studies of platinum metals, gold and base metals show that the chelating silica is selective for palladium(II). The chelating silica is used to preconcentrate and separate palladium from synthetic solution containing traces of palladium and large amounts of copper. The capacity for palladium is about 0.07 mmol g −1.

Effect of Accelerator Type on Brass-Rubber Adhesion

Abstract A natural rubber compound accelerated with tetramethylthiuram disulfide (TMTD) was studied and compared to an N-oxydiethylene-2-benzothiazolesulfenamide (MBS) accelerated compound in order to determine the factors resulting in the poor adhesion to brass of the former. Adhesion to brass-plated steel cord was measured by using the TCAT pull-out test. Vulcanization time and temperature were varied. Also, both compounds were analyzed for crosslink density and type at different states of cure by selective cleavage of the crosslinks with thiol reagents. The poor adhesion to brass of the TMTD compound was not accounted for by cure rate or crosslink density or crosslink type. Synchronization of the rubber cure rate with the sulfidation rate of the brass surface appeared to be unimportant in determining the brass adhesion characteristics of that compound. This was investigated by testing the adhesion of the TMTD compound to brass plated steel cords of different reactivities. Cords were analyzed for copper sulfide formation by an energy dispersive x-ray (EDX) technique after pull-out and also after immersion in squalene solutions containing each accelerator with and without added free sulfur. This analysis showed that there is significant sulfidation of brass in the presence of TMTD accelerator. Atomic absorption analyses of the squalene solutions, after the cord immersions, showed relatively large amounts of copper and zinc present in the TMTD solutions as compared to the MBS solutions. This indicates that TMTD corrodes brass to a much greater extent than the MBS accelerator. From the data presented, the following conclusions can be drawn: (1) The poor adhesion to brass of TMTD accelerated compounds is not related to: (a) their rapid cure rates, (b) a lack of synchronization between cure rate and sulfidation rate, or (c) crosslink density or type. This implies that a deficiency of physical entanglements of rubber crosslinks within the copper sulfide layer is not a reason for the poor adhesion to brass of these compounds. (2) Considerable sulfidation of brass occurs in squalene solutions with TMTD indicating that lack of sulfur availability for brass sulfidation is not a valid explanation for the poor brass adhesion of TMTD compounds. Contrarily, in fact, the data suggest that excessive sulfidation of brass occurs in the presence of TMTD. (3) The corrosive nature of TMTD toward brass has been documented for cords dipped in TMTD/squalene solutions. This characteristic of TMTD likely results in a copper sulfide layer on the brass which is porous and mechanically weak. It is proposed that this direct interaction of TMTD with brass provides an explanation for the poor adhesion to brass of TMTD accelerated compounds. The mechanism by which the TMTD causes the very rapid removal of the brass into solution is not known at this time. Perhaps the TMTD or its decomposition fragments form relatively stable complexes with copper and zinc such that their removal is favored.