Nickel Dmg Structure

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  1. Nickel Dmg Structure Examples
  2. Nickel Dmg Complex Structure
  3. Nickel Dmg Structure Crossword
  4. Nickel Dmg Structure Diagram
  5. Nickel Dmg Structure List
  6. Nickel Dmg Structure Chart
doi: 10.4103/0019-5154.80438
PMID: 21716564

Nickel present in the ore. Notes: If transparent, colorless needle-like crystals appear in the final nickel dimethylgloxime, or if the results of the nickel content in the ore have a high degree of variance, use the following procedure: 1. Fill each crucible containing the Ni(DMG) 2. The structure of nickel dimethyl-glyoxime Ludwig Edward Godycki Iowa State College Follow this and additional works at:Part of thePhysical Chemistry Commons This Dissertation is brought to you for free and open access by the Iowa State University Capstones, Theses and Dissertations at Iowa State University.

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Sir,

Case 1: A 23-year-old student presented with an itchy eruption on her forearms for 2 weeks. The patient had recently recovered from typhoid fever, and while she was in hospital, she gave history of repeated blood withdrawals from the site. She did not relate any immediate itching or burning sensation following cleansing with the antiseptic solution. Also, a positive history of similar symptoms on using artificial jewellery was elicited. On examination, multiple skin colored erythematous papules in bilateral anticubital fossae were noted [Figure 1]. Few of the papules showed central crusting. Patch testing using Indian standard series of allergens revealed 2+ reaction to nickel sulfate at 48 and 72 hours [Figure 2].

Clinical photograph showing papular eruption in the cubital fossae

Strong patch test positive result to nickel sulfate

Nickel Dmg Structure Examples

Case 2: A 21-year-old student presented with itchy hyperpigmented plaques on anticubital fossae, after 1 month of blood donation [Figure 3]. She also had a past history of itchy, scaly plaques on her left wrist, at the site of her watch. Patch testing with ISS gave a 1+ reaction for nickel sulfate at 48 hours, with the dimethyl glyoxime (DMG) test on the watch being negative.

Eczematous plaques seen in the cubital fossae

Nickel allergy is a common problem to which human beings are being continuously exposed, be it at home, work place or hospitals. Nickel sensitivity is common in the general population with a prevalence rate of 4–13.1%[] and is on the increase. Nickel is an important constituent of artificial jewellery, clothing materials like metal zips, bra hooks, suspender clips, personal articles like watches, lipstick holder, knives, etc., and household utilities like kitchen utensils, machinery parts. Safety pin, due to its nickel content and ubiquitous usage across India, has proved to be a major cause of worry for its potential impact on most women across India.[]

In both our patients, dermatitis developed following contact with hypodermic needles, which are frequently and almost ubiquitously used in the hospitals. Medical equipments such as orthopedic implants, braces, syringes and infusion pumps contain nickel in significant amounts and nickel ions released from them, on coming in contact with the human skin, cause sensitization, especially when the contact is for a prolonged period of time. Systemic contact dermatitis due to nickel release from an intravenous catheter has been reported.[]

Romaguera et al. reported allergic contact dermatitis from a stainless steel infusion needle, and microanalysis of the needle revealed 8% nickel.[] Koizumi et al.[] reported a patient in whom dermatitis occurred following contact with acupuncture needles which also contained nickel. In both the above cases, dimethyl glyoxime test (DMG) test carried out on the culprit needles were negative, as was also seen in our case. Since the facility to analyze the composition of the needle was not available at our center, we failed to accurately measure the nickel content in our case.

Nickel released from nickel plated metals often induces allergic sensitization, but for stainless steels containing nickel, the effect is not well known. As laid down by the European directive, the amount of bioavailable nickel released from these metals onto the skin should be less than 0.5 µg/cm2/week. Although only a minority of nickel-sensitive individuals would react to less than 0.5 µg/cm2/week of nickel released, it may not be safe for every nickel-sensitive individual. Hence, this report reaffirms that medical equipment as an elicitor of contact dermatitis should not be overseen. Though the DMG test can be used as a first-line test for determining nickel release, DMG negative metallic articles may also induce nickel sensitization, and should by no means be advertised as safe in this respect.[]

Nickel Dmg Complex Structure

To conclude, any metal coming in prolonged contact with skin and releasing more than 0.5 µg/cm 2/week[] should be prohibited as per the European directive on nickel.

References

1. Hammershoy O. Standard patch test results in 3225 consecutive patients from 1973 to 1977. Contact Dermatitis. 1980;6:263–8. [PubMed] [Google Scholar]
2. Sharma AD. Nickel nuisance: a clinical observation. Ind J Dermatol Venereol Leprol. 2006;72:150–1. [PubMed] [Google Scholar]
3. Raison-Peyron N, Guillard O, Khalil Z, Guilhou JJ, Guillot B. Nickel-elicited systemic contact dermatitis from a peripheral intravenous catheter. Contact Dermatitis. 2005;53:222–5. [PubMed] [Google Scholar]
4. Romaguera C, Grimalt F, Vilaplana J. Nickel dermatitis from an infusion needle. Contact Dermatitis. 1985;12:181. [PubMed] [Google Scholar]
5. Koizumi H, Tomoyori T, Kumakiri M, Ohkawara A. Acupuncture needle dermatitis. Contact Dermatitis. 1989;21:352. [PubMed] [Google Scholar]
6. Gawkrodger DJ. Nickel dermatitis: How much nickel is safe?: Contact Dermatitis. 1996;35:267–71. [PubMed] [Google Scholar]
7. Kanerva L, Sipiläinen-Malm T, Estlander T, Zitting A, Jolanki R, Tarvainen K. Nickel release from metals, and a case of allergic contact dermatitis from stainless steel. Contact Dermatitis. 1994;31:299–303. [PubMed] [Google Scholar]
Articles from Indian Journal of Dermatology are provided here courtesy of Wolters Kluwer -- Medknow Publications
Nickel(II) hydroxide
Names
IUPAC name
Other names
Nickel hydroxide, Theophrastite
Identifiers
  • 12054-48-7
  • 36897-37-7 (monohydrate)
ChemSpider
ECHA InfoCard100.031.813
EC Number
  • 235-008-5
RTECS number
CompTox Dashboard(EPA)
  • Key: BFDHFSHZJLFAMC-UHFFFAOYSA-L
  • Key: BFDHFSHZJLFAMC-NUQVWONBAJ
  • [Ni+2].[OH-].[OH-]
Properties
Ni(OH)2
Molar mass92.724 g/mol (anhydrous)
110.72 g/mol (monohydrate)
Appearancegreen crystals
Density4.10 g/cm3
Melting point 230 °C (446 °F; 503 K) (anhydrous, decomposes)
0.13 g/L
+4500.0·10−6 cm3/mol
Structure[1]
hexagonal, hP3
P3m1, No. 164
α = 90°, β = 90°, γ = 120°
Thermochemistry
79 J·mol−1·K−1[2]
Std enthalpy of
formationfH298)
−538 kJ·mol−1[2]
Hazards
Safety data sheetExternal SDS
GHS pictograms[3]
GHS Signal wordDanger[3]
H302, H332, H315, H334, H317, H341, H350, H360, H372[3]
P260, P284, P201, P280, P405, P501[3]
Lethal dose or concentration (LD, LC):
1515 mg/kg (oral, rat)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
verify (what is ?)
Infobox references
The test tube in the middle contains a precipitate of nickel(II) hydroxide

Nickel(II) hydroxide is the inorganic compound with the formula Ni(OH)2. It is an apple-green solid that dissolves with decomposition in ammonia and amines and is attacked by acids. It is electroactive, being converted to the Ni(III) oxy-hydroxide, leading to widespread applications in rechargeable batteries.[4]

Properties[edit]

Nickel(II) hydroxide has two well-characterized polymorphs, α and β. The α structure consists of Ni(OH)2 layers with intercalated anions or water.[5][6] The β form adopts a hexagonal close-packed structure of Ni2+ and OH ions.[5][6] In the presence of water, the α polymorph typically recrystallizes to the β form.[5][7] In addition to the α and β polymorphs, several γ nickel hydroxides have been described, distinguished by crystal structures with much larger inter-sheet distances.[5]

The mineral form of Ni(OH)2, theophrastite, was first identified in the Vermion region of northern Greece, in 1980. How do you get rid of the mac cleaner popup. It is found naturally as a translucent emerald-green crystal formed in thin sheets near the boundaries of idocrase or chlorite crystals.[8] A nickel-magnesium variant of the mineral, (Ni,Mg)(OH)2 had been previously discovered at Hagdale on the island of Unst in Scotland.[9]

Reactions[edit]

Nickel(II) hydroxide is frequently used in electrical car batteries.[6] Specifically, Ni(OH)2 readily oxidizes to nickel oxyhydroxide, NiOOH, in combination with a reduction reaction, often of a metal hydride (reaction 1 and 2).[10]

Reaction 1 Ni(OH)2 + OH → NiO(OH) + H2O + e

Reaction 2 M + H2O + e → MH + OH

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Net Reaction (in H2O)Ni(OH)2 + M → NiOOH + MH

Nickel Dmg Structure Crossword

Of the two polymorphs, α-Ni(OH)2 has a higher theoretical capacity and thus is generally considered to be preferable in electrochemical applications. However, it transforms to β-Ni(OH)2 in alkaline solutions, leading to many investigations into the possibility of stabilized α-Ni(OH)2 electrodes for industrial applications.[7]

Synthesis[edit]

The synthesis entails treating aqueous solutions of nickel(II) salts with potassium hydroxide.[11]

Toxicity[edit]

The Ni2+ ion is a known carcinogen. Toxicity and related safety concerns have driven research into increasing the energy density of Ni(OH)2 electrodes, such as the addition of calcium or cobalt hydroxides.[4]

See also[edit]

References[edit]

Nickel Dmg Structure Diagram

  1. ^Enoki, Toshiaki; Tsujikawa, Ikuji (1975). 'Magnetic Behaviours of a Random Magnet, NipMg(1-p)(OH2)'. Journal of the Physical Society of Japan. 39 (2): 317. doi:10.1143/JPSJ.39.317.
  2. ^ abZumdahl, Steven S. (2009). Chemical Principles 6th Ed. Houghton Mifflin Company. p. A22. ISBN978-0-618-94690-7.
  3. ^ abcd'Nickel Hydroxide'. American Elements. Retrieved 2018-08-30.
  4. ^ abChen, J.; Bradhurst, D.H.; Dou, S.X.; Liu, H.K. (1999). 'Nickel Hydroxide as an Active Material for the Positive Electrode in Rechargeable Alkaline Batteries'. J. Electrochem. Soc. 146 (10): 3606–3612. doi:10.1149/1.1392522.
  5. ^ abcdOliva, P.; Leonardi, J.; Laurent, J.F. (1982). 'Review of the structure and the electrochemistry of nickel hydroxides and oxy-hydroxides'. Journal of Power Sources. 8 (2): 229–255. doi:10.1016/0378-7753(82)80057-8.
  6. ^ abcJeevanandam, P.; Koltypin, Y.; Gedanken, A. (2001). 'Synthesis of Nanosized α-Nickel Hydroxide by a Sonochemical Method'. Nano Letters. 1 (5): 263–266. doi:10.1021/nl010003p.
  7. ^ abShukla, A.K.; Kumar, V.G.; Munichandriah, N. (1994). 'Stabilized α-Ni(OH)2 as Electrode Material for Alkaline Secondary Cells'. J. Electrochem. Soc. 141 (11): 2956–2959. doi:10.1149/1.2059264.
  8. ^Marcopoulos, T.; Economou, M. (1980). 'Theophrastite, Ni(OH)2, a new mineral from northern Greece'(PDF). American Mineralogist. 66: 1020–1021.
  9. ^Livingston, A.; Bish, D. L. (1982). 'On the new mineral theophrastite, a nickel hydroxide, from Unst, Shetland, Scotland'(PDF). Mineralogical Magazine. 46 (338): 1. doi:10.1180/minmag.1982.046.338.01.
  10. ^Ovshinsky, S.R.; Fetcenko, M.A.; Ross, J. (1993). 'A nickel metal hydride battery for electric vehicles'. Science. 260 (5105): 176–181. doi:10.1126/science.260.5105.176. PMID17807176.
  11. ^Glemser, O. (1963) 'Nickel(II) Hydroxide' in 'Handbook of Preparative Inorganic Chemistry, 2nd ed. G. Brauer (ed.), Academic Press, NY. Vol. 1. p. 1549.

Nickel Dmg Structure List

External links[edit]

Nickel Dmg Structure Chart

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