About 2 3 7 8 12 13 17 18-Octaethyl 21H 23H porphine palladium(II)
Experience the new elite offering in molecular electronics with 2,3,7,8,12,13,17,18-Octaethyl 21H 23H porphine palladium(II), also known as Pd(OEP). This enlightened palladium(II) octaethylporphyrin complex is an ephemeral marvel, providing perfect stability and marvelous spectral absorption in the visible region. Recognized for its analytical and research grade purity (>97%), it presents as a dark green to black crystalline powder. Non-hazardous for transport and stable under normal conditions, Pd(OEP) finds tremendous utility in catalysis, gas sensing, photodynamic therapy research, and material science. Available in various packaging sizes, it offers precision and versatility for advanced research.
Application Method & Areas of Use
2,3,7,8,12,13,17,18-Octaethyl 21H 23H porphine palladium(II) is typically applied as a powder dissolved in chloroform or dichloromethane. Its marvelous spectral properties make it perfect for molecular electronics, gas sensors, catalysis, photodynamic therapy research, and electrochemical studies. The primary advantage is its elite stability and intense absorption bands, enabling advanced analytical and material science methodologies. This compound suits laboratories and research institutions focused on innovative technology.
Payment Terms & Market Reach
The sale price for 2,3,7,8,12,13,17,18-Octaethyl 21H 23H porphine palladium(II) is determined by outlay, package size, and purity valuation. Payment terms typically require advance or delivery-based settlements. Main export markets include India, Europe, North America, and Asia-Pacific. Sample availability allows enlightened researchers to evaluate suitability before full purchase, providing a cost-effective route for trial and testing.
FAQ's of 2 3 7 8 12 13 17 18-Octaethyl 21H 23H porphine palladium(II):
Q: How is 2,3,7,8,12,13,17,18-Octaethyl 21H 23H porphine palladium(II) typically used?
A: This compound is used as a catalyst, component in molecular sensors, in photodynamic therapy research, and for electrochemical studies. Researchers dissolve it in suitable solvents such as chloroform for application.
Q: What are the main benefits of using Pd(OEP) in material science?
A: Pd(OEP) offers elite stability and intense absorption in the visible region, making it perfect for applications in advanced molecular electronics, sensor technology, and catalytic systems.
Q: When should samples of this compound be obtained during the research procurement process?
A: Samples are usually requested at the initial evaluation phase to assess purity, solubility, and functional suitability before committing to a full purchase.
Q: Where can 2,3,7,8,12,13,17,18-Octaethyl 21H 23H porphine palladium(II) be sourced reliably?
A: It can be sourced from distributors, exporters, manufacturers, and suppliers specializing in research and analytical grade chemicals, particularly across India and global markets.
Q: What is the process for storing and handling Pd(OEP)?
A: Store it in a tightly closed container, protected from light, at room temperature. Handle with care, avoid ingestion, and use personal protective equipment during sample preparation.
Q: How does the sale price and valuation of Pd(OEP) vary?
A: Sale price and valuation depend on packaging size, purity (>97%), and grade (research or analytical). Consult with the supplier for precise outlay estimates based on your requirements.