Cas no 108756-88-3 (BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX)

BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX is a stable, air-sensitive reagent commonly used in organic synthesis and catalysis. Its key advantages include high selectivity in reduction reactions, particularly for converting carbonyl compounds to alcohols under mild conditions. The dicyclohexylphosphine ligand enhances steric and electronic control, improving reaction efficiency and yield. This complex is also valued for its compatibility with a range of functional groups, making it versatile in fine chemical and pharmaceutical applications. Its borane moiety provides additional stability, facilitating handling and storage compared to more reactive alternatives. The compound is particularly useful in asymmetric synthesis and hydroboration reactions.
BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX structure
108756-88-3 structure
Product Name:BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX
CAS No:108756-88-3
MF:C12H23BP
MW:209.095784425735
MDL:MFCD03412072
CID:128150
PubChem ID:11241306
Update Time:2025-05-20

BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX Chemical and Physical Properties

Names and Identifiers

    • BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX
    • (Dicyclohexylphosphine)trihydroboron
    • Dicyclohexylphosphine-borane
    • DICYCLOHEXYLPHOSPHINE BORANE COMPLEX
    • c-Hex2PH-BH3
    • Borane-dicyclohexylphosphine complex,95%
    • FT-0719373
    • AMY28750
    • 108756-88-3
    • SCHEMBL185051
    • MDL: MFCD03412072
    • Inchi: 1S/C12H23P.B/c1-3-7-11(8-4-1)13-12-9-5-2-6-10-12;/h11-13H,1-10H2;
    • InChI Key: TVRLVVNHOYLIPR-UHFFFAOYSA-N
    • SMILES: P(C1CCCCC1)C1CCCCC1.[B]

Computed Properties

  • Exact Mass: 212.18700
  • Monoisotopic Mass: 209.1630429g/mol
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 0
  • Hydrogen Bond Acceptor Count: 0
  • Heavy Atom Count: 14
  • Rotatable Bond Count: 2
  • Complexity: 116
  • Covalently-Bonded Unit Count: 2
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Topological Polar Surface Area: 0?2

Experimental Properties

  • Color/Form: Not available
  • Melting Point: 80-81 oC
  • Boiling Point: No data available
  • Flash Point: No data available
  • PSA: 13.59000
  • LogP: 3.14640
  • Solubility: Not available
  • Vapor Pressure: No data available

BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX Security Information

BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX Pricemore >>

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BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX Production Method

Additional information on BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX

BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX: A Comprehensive Overview

The BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX, identified by the CAS number 108756-88-3, is a significant compound in the field of organometallic chemistry. This complex is widely recognized for its unique properties and applications in various chemical reactions, particularly in catalysis and synthesis. The compound is composed of borane, which serves as the central metal atom, coordinated with two cyclohexylphosphine ligands. This structure imparts exceptional stability and reactivity to the complex, making it a valuable tool in modern chemical research.

Recent studies have highlighted the role of BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX in asymmetric catalysis, where it has demonstrated remarkable enantioselectivity in various reactions. For instance, researchers have employed this complex as a catalyst in the synthesis of chiral pharmaceutical intermediates, showcasing its potential in drug discovery and development. The ability of the complex to facilitate highly selective transformations has positioned it as a key player in the field of asymmetric synthesis.

In addition to its catalytic applications, the BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX has been explored for its role in cross-coupling reactions. These reactions are fundamental in organic synthesis, enabling the construction of complex molecular architectures with high precision. The compound's ability to activate and transfer boron groups has made it an invaluable reagent in these processes. Recent advancements have further optimized its performance, leading to improved yields and selectivity in cross-coupling reactions.

The structural integrity of the BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX is largely attributed to the steric and electronic effects imparted by the cyclohexylphosphine ligands. These ligands not only stabilize the borane core but also influence the reactivity of the complex. Computational studies have provided deeper insights into the electronic structure of the compound, revealing how these ligands modulate the bonding interactions within the complex. Such findings have paved the way for further modifications to enhance its catalytic properties.

Another area where this complex has shown promise is in materials science. Researchers have investigated its potential as a precursor for the synthesis of novel materials with tailored properties. For example, it has been used in the preparation of boron-containing polymers and ceramics, which exhibit unique thermal and mechanical characteristics. These applications underscore the versatility of the BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX beyond traditional chemical synthesis.

From an environmental standpoint, there is growing interest in developing sustainable methods for synthesizing and utilizing organometallic compounds like BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX. Recent research has focused on reducing waste generation and improving energy efficiency during its production. Green chemistry principles are being integrated into its synthesis protocols, ensuring that this valuable compound can be produced responsibly while maintaining its high performance standards.

In conclusion, the BORANE-DICYCLOHEXYLPHOSPHINE COMPLEX stands as a testament to advancements in organometallic chemistry. Its unique properties, combined with cutting-edge research findings, continue to expand its applications across diverse fields. As scientists delve deeper into understanding its structure-function relationships and explore innovative uses, this compound is poised to play an even more pivotal role in shaping future chemical innovations.

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