Relevant bibliographies by topics / Mercuric oxide. Mercury oxychlorides

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Academic literature on the topic 'Mercuric oxide. Mercury oxychlorides'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Mercuric oxide. Mercury oxychlorides"

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De Bont, B., R. Lauwerys, H. Govaerts, and D. Moulin. "Yellow mercuric oxide ointment and mercury intoxication." European Journal of Pediatrics 145, no. 3 (1986): 217–18. http://dx.doi.org/10.1007/bf00446069.

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Staun, Chris, Neetu Bansal, and James Vaughan. "Electrocrystallization and solubility of mercury in alkaline solution." Canadian Journal of Chemistry 96, no. 4 (2018): 385–93. http://dx.doi.org/10.1139/cjc-2017-0592.

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The chemical thermodynamics of mercury in aqueous sodium hydroxide solution has been investigated through electrochemical polarisation and solubility experiments. A review of thermodynamic data allowed determination of the Hg/HgO electrode potential. Cyclic voltammetry revealed a complex anodic reaction beginning with aqueous dissolution of elemental mercury and subsequent electrocrystallization of mercuric oxide. Cathodic sweeps showed dual reduction reactions, attributed to the presence of aqueous mercury and mercuric oxide. The solubility and hence activity of elemental mercury in sodium hy
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Endo, Tetsuya, Shozou Nakaya, and Ryohei Kimura. "Difference in Effect of Sodium Selenite on Mercury Distributions after Duodenal Administration of Mercuric Chloride and Mercuric Oxide." Pharmacology & Toxicology 67, no. 5 (1990): 431–35. http://dx.doi.org/10.1111/j.1600-0773.1990.tb00858.x.

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Sparkes, Clive, and Neville K. Lacey. "A study of mercuric oxide and zinc-air battery life in hearing aids." Journal of Laryngology & Otology 111, no. 9 (1997): 814–19. http://dx.doi.org/10.1017/s002221510013871x.

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AbstractThe requirement to phase out mercuric oxide (mercury) batteries on environmental grounds has led to the widespread introduction of zinc-air technology. The possibility arises that high drain hearing aids may not be adequately catered for by zinc-air cells, leading to poor performance. This study investigated the hearing aid user's ability to perceive differences between zinc-air and mercury cells in normal everyday usage. The data was collected for 100 experienced hearing aid users in field trials. Users report 50 per cent greater life for zinc-air cells in high power aids and 28 per c
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Grundt, Inger K., and Nenad M. Neskovic. "Glial Cells in Primary Cultures Exposed to Mercury and Lead." Alternatives to Laboratory Animals 16, no. 3 (1989): 248–52. http://dx.doi.org/10.1177/026119298901600307.

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Several toxic compounds of heavy metals (triethyllead, lead acetate, methylmercury, mercuric oxide and copper sulphate) stimulate oligodendroglial development in cultures when present at low levels in the culture medium. Studies of methylmercury and triethyllead show that astroglial cells respond to the same doses with an increase in glial fibrillary acidic protein (GFAP) content. Above a critical concentration, the stimulatory effect of a metal ceases, and the compounds begin to express individual toxic effects. We were not able to observe any differences microscopically in the number of micr
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Omanwar, S., B. Saidullah, K. Ravi, and M. Fahim. "Vasorelaxant effects of mercury on rat thoracic aorta." Human & Experimental Toxicology 33, no. 9 (2013): 904–10. http://dx.doi.org/10.1177/0960327113512341.

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Mercury, a heavy metal, is widespread and persistent in the environment and has been elucidated as a possible risk factor in cardiovascular diseases. Mercury has been reported to selectively impair the nitric oxide (NO) pathway in the vascular endothelium as a consequence of oxidative stress. Conversely, mercury per se causes endothelium-dependent vasorelaxation at lower concentration via the NO pathway. Little is known about the effects of mercury per se on other endothelial mediators. To elucidate possible mechanisms involved in this action, isometric tension was measured in aortic rings pre
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Mant, T. G. K., J. L. Lewis, T. K. Mattoo, et al. "Mercury Poisoning after Disc-battery Ingestion." Human Toxicology 6, no. 2 (1987): 179–81. http://dx.doi.org/10.1177/096032718700600212.

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1 A case is described of a 2-year-old girl who swallowed an alkaline disc battery containing mercuric oxide. Two days after ingestion it disintegrated in the stomach necessitating laparotomy to remove the battery casing and most of its contents. 2 Postoperatively her blood mercury concentration rose to 340 μg/l and subsequently she developed small bowel obstruction due to adhesions. She was treated wth dimercaprol but blood mercury concentrations did not fall until after a second laparotomy to relieve the obstruction and to remove residual mercury salts from the colon. 3 The corrosive effects
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Kronenberg, M. L., B. J. Stein, and B. P. Codd. "Effect of Mercury‐Silver Alloy Composition on the Open‐Circuit Voltage of Cadmium/Mercuric Oxide Cells." Journal of The Electrochemical Society 141, no. 10 (1994): 2587–89. http://dx.doi.org/10.1149/1.2059123.

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9

Tangsuwanjinda, Sripansuang, Yu-Yu Chen, Ching-Hsiang Lai, Guan-Ting Jhou, Yu-Wei Chiang, and Hsin-Ming Cheng. "Microporous Oxide-Based Surface-Enhanced Raman Scattering Film for Quadrillionth Detection of Mercury Ion (II)." Processes 9, no. 5 (2021): 794. http://dx.doi.org/10.3390/pr9050794.

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A variety of chemical sensing materials and procedures for conveniently detecting mercuric ion (II) (Hg2+) have been extensively explored. The detection challenges for accomplishing a simple, fast, and low investment procedure at the ultrasensitive level are ongoing. Herein we report a quadrillionth level for detecting Hg2+ by the surface-enhanced Raman scattering (SERS) technique. There is an interaction of silver nanoparticles decorated on a zinc-oxide tetrapod structure and coated on FTO glass (Ag@ZnO-FTO) with an organic ligand. 4,4′-Dipyridyl (DPy) performed as being chemisorbed by Ag nan
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Anderson, Kim A., and Gregory Möller. "Alternative Catalyst to Mercury for Kjeldahl Determination of Nitrogen in Water and Wastewater Samples." Journal of AOAC INTERNATIONAL 78, no. 6 (1995): 1516–18. http://dx.doi.org/10.1093/jaoac/78.6.1516.

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Abstract A non-polluting alternative catalyst was used in a U.S. Environmental Protection Agency (EPA) Kjeldahl digestion procedure for water and wastewater samples. The colorimetric semiautomated block digestion method (EPA Method 351.2) was essentially unchanged except that 1 mL of a saturated solution of titanium dioxide was added to the digestant mixture, instead of 2 g mercuric oxide. Titanium dioxide is a nontoxic compound, which makes an excellent replacement in total Kjeldahl nitrogen (TKN) determination. Samples were digested and then placed on a flow injection autoanalyzer for ammoni
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Book chapters on the topic "Mercuric oxide. Mercury oxychlorides"

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Beerling, David. "Oxygen and the lost world of giants." In The Emerald Planet. Oxford University Press, 2007. http://dx.doi.org/10.1093/oso/9780192806024.003.0010.

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Oxygen, in its molecular form, is the second most abundant gas in our atmosphere but second to none in courting controversy. Its discovery is often credited to the great experimenter Joseph Priestley (1733–1904), who in 1774 showed that heating red calyx of mercury (mercuric oxide) in a glass vessel by focusing sunlight with a hand lens produced a colourless, tasteless, odourless gas. Mice placed in vessels of the new ‘air’ lived longer than normal and candles burned brighter than usual. As Priestley noted in 1775, ‘on the 8th of this month I procured a mouse, and put it into a glass vessel containing two ounce measures of the air from my mercuric calcinations. Had it been common air, a full-grown mouse, as this was, would have lived in it about quarter of an hour. In this air, however, my mouse lived a full half hour.’ Later experiments revealed that mice actually lived about five times longer in the ‘new air’ than normal air, giving Priestley an early indication that air is about 20% oxygen. About the same time, the Swedish chemist Carl Scheele (1742–86), working in Uppsala, showed that air contained a mixture of two gases, one promoting burning (oxygen) and one retarding it (nitrogen). Like Priestley, Scheele had prepared samples of the gas that encouraged burning (‘fire air’) by heating mercuric oxide, and also by reacting nitric acid with potash and distilling the residue with sulfuric acid. However, by the time his findings were published in a book entitled the Chemical treatise on air and fire in 1777, news of Priestley’s discovery had already spread throughout Europe and the great English chemist lay claim to priority. Only later did it become clear from surviving notes and records that Scheele had beaten Priestley to it, producing oxygen at least two years earlier. The harsh lesson from history, which still rings true today, is that capitalizing on a new exciting discovery requires its expedient communication to your peers. The talented Scheele died at 43, his life shortened by working for much of the time with deadly poisons like gaseous hydrogen cyanide in poorly ventilated conditions.
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