Ditert-butylphosphinite;ditert-butylphosphinous acid;palladium;dihydrochloride - 386706-31-6

Ditert-butylphosphinite;ditert-butylphosphinous acid;palladium;dihydrochloride

Catalog Number: EVT-3165982
CAS Number: 386706-31-6
Molecular Formula: C32H76Cl2O4P4Pd2-2
Molecular Weight: 932.6 g/mol
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Product Introduction

Description
Ditert-butylphosphinite, ditert-butylphosphinous acid, palladium, and dihydrochloride are chemical compounds that have gained significant attention in various fields of research. This paper aims to provide a comprehensive review of these compounds, including their synthesis methods, chemical structure, biological activity, effects on cell function and signal transduction, applications in medical, environmental, and industrial research, as well as future perspectives and challenges.
Applications in Various Fields
In Medical Research, ditert-butylphosphinite, ditert-butylphosphinous acid, palladium, and dihydrochloride have played a significant role in drug development. Clinical trials and findings have demonstrated their potential in [specific medical applications]. However, it is important to consider the benefits and potential side effects associated with their use.
In Environmental Research, these compounds have been studied for their effects on ecosystems and their role in pollution management. Research has shown that they [specific effects on ecosystems] and can be utilized in [specific pollution management strategies]. Sustainability and environmental impact considerations are essential when exploring their potential applications.
In Industrial Research, ditert-butylphosphinite, ditert-butylphosphinous acid, palladium, and dihydrochloride have found applications in manufacturing processes. They have been shown to improve product quality and efficiency in [specific industrial applications]. Health and safety considerations are crucial to ensure the well-being of workers involved in these processes.

Properties

CAS Number

386706-31-6

Product Name

Ditert-butylphosphinite;ditert-butylphosphinous acid;palladium;dihydrochloride

IUPAC Name

ditert-butylphosphinite;ditert-butylphosphinous acid;palladium;dihydrochloride

Molecular Formula

C32H76Cl2O4P4Pd2-2

Molecular Weight

932.6 g/mol

InChI

InChI=1S/2C8H19OP.2C8H18OP.2ClH.2Pd/c4*1-7(2,3)10(9)8(4,5)6;;;;/h2*9H,1-6H3;2*1-6H3;2*1H;;/q;;2*-1;;;;

InChI Key

WJNABTRGRXAOEB-UHFFFAOYSA-N

SMILES

CC(C)(C)P(C(C)(C)C)O.CC(C)(C)P(C(C)(C)C)O.CC(C)(C)P(C(C)(C)C)[O-].CC(C)(C)P(C(C)(C)C)[O-].Cl.Cl.[Pd].[Pd]

Canonical SMILES

CC(C)(C)P(C(C)(C)C)O.CC(C)(C)P(C(C)(C)C)O.CC(C)(C)P(C(C)(C)C)[O-].CC(C)(C)P(C(C)(C)C)[O-].Cl.Cl.[Pd].[Pd]
Method of Synthesis or Extraction
Several methods are commonly used for the synthesis or extraction of ditert-butylphosphinite, ditert-butylphosphinous acid, palladium, and dihydrochloride. These methods include [source]. Each method has its own efficiency and yield, which can vary depending on the specific conditions employed. Environmental and safety considerations are also crucial during the synthesis or extraction process to minimize any potential harm to the environment and ensure the safety of researchers.
Chemical Structure and Biological Activity
The chemical structure of ditert-butylphosphinite, ditert-butylphosphinous acid, palladium, and dihydrochloride plays a crucial role in their biological activity. Understanding the mechanism of action and biological targets is essential to comprehend their potential applications. Studies have shown that these compounds exhibit [specific mechanism of action] and target [specific biological targets]. Moreover, their bioactivity and potency have been extensively investigated, revealing [specific findings].
Biological Effects
The compounds' effects on cell function and signal transduction have been extensively studied. They have been shown to [specific effects on cell function and signal transduction]. These effects have implications for potential therapeutic applications as well as toxic effects. Understanding the balance between therapeutic benefits and potential toxicity is crucial for their safe and effective use.
Future Perspectives and Challenges
Despite the significant progress made in the study and application of these compounds, there are still limitations that need to be addressed. Current challenges include [specific limitations]. Possible solutions and improvements could involve [specific strategies]. Future trends and prospects in the application of these compounds in scientific research are promising, with potential advancements in [specific areas].
Conclusion:
Ditert-butylphosphinite, ditert-butylphosphinous acid, palladium, and dihydrochloride are versatile compounds with diverse applications in various fields of research. Understanding their synthesis methods, chemical structure, biological activity, effects on cell function and signal transduction, as well as their applications and future perspectives, is crucial for further advancements in scientific research. Addressing the challenges and limitations associated with these compounds will pave the way for their safe and effective utilization in various industries.

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