Zn−OH<sub>2</sub> and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands:  A Comprehensive Study

Mohamed M. Ibrahim; C.P. Olmo; T. Tekeste; Jan Seebacher; Guosen He; J.A.M. Calvo; K. Böhmerle; Gunther Steinfeld; H. Brombacher; Heinrich Vahrenkamp

doi:10.1021/ic060752f

JOURNAL ARTICLE

Zn−OH₂ and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

Mohamed M. Ibrahim C.P. Olmo T. Tekeste Jan Seebacher Guosen He J.A.M. Calvo K. Böhmerle Gunther Steinfeld H. Brombacher Heinrich Vahrenkamp

Year: 2006 Journal: Inorganic Chemistry Vol: 45 (18)Pages: 7493-7502 Publisher: American Chemical Society

DOI: 10.1021/ic060752f

Get Full-Text PDF Get Analytical Report

Abstract

The complete array of those hydrotris(pyrazolyl/thioimidazolyl)borate ligands that were developed and used in the author's laboratories, with N3, N2S, NS2, and S3 donor sets, was scanned for their ability to form Zn-OH2 and Zn-OH complexes. The coordination motifs found were Zn-OH2, Zn-OH, Zn-OH-Zn, and Zn-O2H3-Zn. Of these, the well-established Zn-OH motif was complemented with novel species bearing N3, NS2, and S3 tripods. The Zn-OH2 motif was observed only with pyrazolylborate ligands and only in unusual situations with coordination numbers higher than 4 for zinc. The new Zn-OH-Zn motif was realized for three different pyrazolylborates, for one NS2 tripod, and for two S3 tripods. Finally, it was verified that the Zn-O2H3-Zn motif again occurs only with pyrazolylborate ligands. The new complexes were identified by a total of 11 structure determinations.

Keywords:

Chemistry Tripod (photography) Zinc Crystallography Boron Stereochemistry Organic chemistry

Metrics

Cited By

2.81

FWCI (Field Weighted Citation Impact)

Refs

0.88

Citation Normalized Percentile

Is in top 1%

Is in top 10%

Citation History

Topics

Metal complexes synthesis and properties

Health Sciences → Medicine → Oncology

Ferrocene Chemistry and Applications

Physical Sciences → Chemistry → Organic Chemistry

Corrosion Behavior and Inhibition

Physical Sciences → Materials Science → Materials Chemistry

Zn−OH₂ and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

Abstract

Metrics

Citation History

Topics

Related Documents

Zur Konstitution des ϵ‐Zn(OH)₂

Two Three-Dimensional Metal−Organic Frameworks from Secondary Building Units of Zn₈(OH)₄(O₂C−)₁₂ and Zn₂((OH)(O₂C−)₃: [Zn₂(OH)(btc)]₂(4,4‘-bipy) and Zn₂(OH)(btc)(pipe)

Zn-MOF-derived γ-Zn(OH)2/Zn(OH)2.0.5H2O/Zn(OH)2/activated charcoal-based electrode material for supercapacitor applications

ChemInform Abstract: Synthesis and Crystal Structure of Sr₂Zn(OH)₆ and Ba₂Zn(OH)₆.

Über die Zwei Kristallformen des Zn(OH)₂

Zn−OH2 and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

Abstract

Metrics

Citation History

Topics

Related Documents

Zur Konstitution des ϵ‐Zn(OH)2

Two Three-Dimensional Metal−Organic Frameworks from Secondary Building Units of Zn8(OH)4(O2C−)12 and Zn2((OH)(O2C−)3: [Zn2(OH)(btc)]2(4,4‘-bipy) and Zn2(OH)(btc)(pipe)

Zn-MOF-derived γ-Zn(OH)2/Zn(OH)2.0.5H2O/Zn(OH)2/activated charcoal-based electrode material for supercapacitor applications

ChemInform Abstract: Synthesis and Crystal Structure of Sr2Zn(OH)6 and Ba2Zn(OH)6.

Über die Zwei Kristallformen des Zn(OH)2

Zn−OH₂ and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

Zur Konstitution des ϵ‐Zn(OH)₂

Two Three-Dimensional Metal−Organic Frameworks from Secondary Building Units of Zn₈(OH)₄(O₂C−)₁₂ and Zn₂((OH)(O₂C−)₃: [Zn₂(OH)(btc)]₂(4,4‘-bipy) and Zn₂(OH)(btc)(pipe)

ChemInform Abstract: Synthesis and Crystal Structure of Sr₂Zn(OH)₆ and Ba₂Zn(OH)₆.

Über die Zwei Kristallformen des Zn(OH)₂