Nickel(II) Tetraphenylporphyrin: A Versatile Catalyst for Organic Synthesis and Material Science

Explore the catalytic prowess of Nickel(II) 5,10,15,20-tetraphenyl-21H,23H-porphine for advanced chemical applications.

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Key Advantages

Catalytic Efficiency

The compound's nickel center and porphyrin macrocycle contribute to its exceptional performance as a catalyst, facilitating reactions with high selectivity and yield.

Material Intermediate Versatility

Its role as a synthesis materials intermediate allows for the creation of complex molecules and advanced materials, supporting innovation across various scientific fields.

Chemical Stability

Enjoy the reliability of a stable compound that maintains its integrity under standard storage conditions, ensuring consistent performance in your applications.

Key Applications

Catalysis in Organic Reactions

The compound is extensively utilized as a catalyst for reactions such as cyclizations of saturated o-iodo ketones and hydrogenation of alkenes, supporting efficient organic synthesis.

Material Science Development

It serves as a building block for novel materials, contributing to advancements in areas requiring sophisticated chemical structures and properties.

Research and Development

Researchers leverage the unique properties of this metal porphyrin complex for exploring new reaction pathways and developing innovative chemical processes.

Specialty Chemical Synthesis

Its role as a synthesis materials intermediate makes it valuable for the production of specialty chemicals tailored for specific industrial or scientific needs.