Crystal chemistry of mercury(I) and mercury(I, II) minerals

N. V. Pervukhina, G. V. Romanenko, S. V. Borisov, S. A. Magarill and N. A. Palchik

View Related Documents

Journal Article
Crystal structure of kuznetsovite Hg₃(AsO₄)Cl
G. V. Romanenko, N. V. Pervukhina, S. V. Borisov, S. A. Magarill and V. I. Vasiliev
Journal of Structural Chemistry, 1999, Volume 40, Number 2, Pages 270-275
- Download PDF (520.0 KB)
Journal Article
Crystal structure of [ethylenediamine-N,N′-di(3-propionato)copper(II)]-tris[dichloromercury(II)] [Cu(Eddp)·(HgCl₂)₃]_n
M. Zabel, A. L. Poznyak and V. I. Pavlovskii
Journal of Structural Chemistry, 2007, Volume 48, Number 5, Pages 968-972
- Download PDF (137.3 KB)
Journal Article
Crystallochemistry of mercury chalcogenides. IV. Crystalline structure of two polymorphous modifications of the mercury sulfochalcogenide Hg₃S₂Br_1.5Cl_0.5
N. V. Pervukhina, S. A. Magarill, D. Yu. Naumov, S. V. Borisov and V. I. Vasil’yev, et al.
Journal of Structural Chemistry, 2006, Volume 47, Number 2, Pages 312-317
- Download PDF (167.3 KB)
Journal Article
Phosphonium salts [Ph₃AlkP] ₂⁺ [Hg₂I₆]²⁻ and [Ph₃AlkP] ₂⁺ [Hg₄I₁₀]²⁻: Synthesis and structure
V. V. Sharutin, V. S. Senchurin, N. N. Klepikov and O. K. Sharutina
Russian Journal of Inorganic Chemistry, 2009, Volume 54, Number 2, Pages 232-238
- Download PDF (248.1 KB)
Journal Article
Biomineralization of a poorly crystalline Fe(III) oxide, akaganeite, by an anaerobic Fe(III)-reducing bacterium (Shewanella alga) isolated from marine environment
Sang Han Lee, Insung Lee and Yul Roh
Geosciences Journal, 2003, Volume 7, Number 3, Pages 217-226
- Download PDF (408.6 KB)
Book Chapter
The Solution of the Phase Problem by the Isomorphous Replacement Method
Jan Drenth
2007, Principles of Protein X-Ray Crystallography, Pages 123-171
- Download PDF (638.0 KB)
Book Chapter
Isolated Ion Clock: A New Approach
2007, The Quantum Beat, Pages 263-281
- Download PDF (285.5 KB)
Journal Article
Nuclear quadrupole resonance of Cl³⁵, Br⁷⁹, Br⁸¹, and I¹²⁷ of halogen-containing organomercury compounds
A. N. Nesmeyanov, O. Yu. Okhlobystin, E. V. Bryukhova, V. I. Bregadze and D. N. Kravtsov, et al.
Russian Chemical Bulletin, 1969, Volume 18, Number 9, Pages 1785-1791
- Download PDF (654.6 KB)
Journal Article
An approximate phase shift formula applied to elastic scattering of electrons by mercury atoms
Wolfgang Bühring
Zeitschrift für Physik A Hadrons and Nuclei, 1984, Volume 317, Number 3, Pages 241-249
- Download PDF (702.0 KB)
Journal Article
Untersuchungen von Relaxationserscheinungen an Quecksilberatomen im metastabilen 6³P₂-Zustand mit einem Impulsverfahren
M. Baumann and E. Jacobson
Zeitschrift für Physik A Hadrons and Nuclei, 1968, Volume 212, Number 1, Pages 32-47
- Download PDF (745.5 KB)

Abstract

The crystal structures of 16 mercury(I)- and mercury(I, II)-containing minerals having (Hg-Hg)²⁺ groups are considered. The Hg-Hg and Hg-X bond lengths and the HgHgX angles (X = Cl, Br, I, O, S) are analyzed. A comparative crystal chemical analysis of the environment of Hg atoms is carried out. The Hg-Hg and Hg-X distances vary within 2.43-2.60 and 1.93-2.43 å, respectively; the angles defining the deviation of the X-Hg-Hg-X groups from linearity are from 146 to 177‡. In most cases, the coordination environment of the mercury atoms involves the metal atom of the (Hg-Hg)²⁺ dumbbell and the X atom, but in several compounds the coordination number of the mercury atoms increases due to the additional atoms lying 2.5–3.5 å away. In terlinguaite and kuznetsovite, the Hg₃ triangle is rather unusual; in the latter mineral, the Hg-Hg bonds are lengthened to 2.64-2.70 å. The review covers structural data up to May 1997.

Fulltext Preview

Image of the first page of the fulltext document

Frequently asked questions General info on journals and books Send us your feedback Impressum Contact us

SpringerLink

Crystal chemistry of mercury(I) and mercury(I, II) minerals

View Related Documents

Abstract

Fulltext Preview