Publication: Sodium tetraazidoaurate(III)-From Na[AuCl4]·2H2O to Na[Au(N3)4] and beyond one step at time
Program
KU-Authors
KU Authors
Co-Authors
Psilitelis, Joannis
Cardoso-Gil, Raul
Doert, Thomas
Jach, Franziska
Yilmaz, Ayberk
Ovchinnikov, Alexander
Prots, Yurii
Rosner, Helge
Schmidt, Marcus P.
Hohn, Peter
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Date
Language
eng
Type
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No
Journal Title
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Abstract
The novel sodium tetrachlorido-/azidoaurate(III) dihydrates Na[AuCl4- x(N3)x]& centerdot
2H2O (x = 0, 1, 2, 3, 4) provide the first example of a complete series of gradual substitution on square planar complex anions to be described. Transparent yellow to dark orange single crystals of these phases were synthesized by reaction of NaN3 and AuCl3 or HAuCl4 in different molar ratios from aqueous solution. Controlled dehydration of Na[Au(N3)4]& centerdot
2H2O led to Na[Au(N3)4]& centerdot
H2O and Na[Au(N3)4] in form of orange microcrystalline powders, the latter being a highly explosive material. Predominant structural features of all phases are discrete anions [AuCl4- x(N3)x]- with gold in an ordered square planar coordination of azide/chloride anions. Vibrational spectra show good agreement with other known azidoaurates(III).
2H2O (x = 0, 1, 2, 3, 4) provide the first example of a complete series of gradual substitution on square planar complex anions to be described. Transparent yellow to dark orange single crystals of these phases were synthesized by reaction of NaN3 and AuCl3 or HAuCl4 in different molar ratios from aqueous solution. Controlled dehydration of Na[Au(N3)4]& centerdot
2H2O led to Na[Au(N3)4]& centerdot
H2O and Na[Au(N3)4] in form of orange microcrystalline powders, the latter being a highly explosive material. Predominant structural features of all phases are discrete anions [AuCl4- x(N3)x]- with gold in an ordered square planar coordination of azide/chloride anions. Vibrational spectra show good agreement with other known azidoaurates(III).
Source
Publisher
Wiley
Subject
Chemistry
Citation
Has Part
Source
Chemistry - A European Journal
Book Series Title
Edition
DOI
10.1002/chem.202502800
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