High-Purity Chiral Phosphine Ligand for Advanced Catalysis
Unlock superior enantioselectivity and reaction efficiency with our specialized phosphine ligand.
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![(R)-(+)-2-[2-(Diphenylphosphino)phenyl]-4-(1-methylethyl)-4,5-dihydrooxazole](https://www.nbinno.com/2025/webimg/gemini_688e4f1100408_1754156817.png)
(R)-(+)-2-[2-(Diphenylphosphino)phenyl]-4-(1-methylethyl)-4,5-dihydrooxazole
This high-quality chiral phosphine ligand is a critical component for achieving precise enantioselective synthesis and enabling advanced transition metal-catalyzed reactions. Its unique structure allows for fine-tuning of steric and electronic properties, leading to superior catalytic performance.
- Leveraging chiral phosphine ligand synthesis expertise, this compound facilitates sophisticated asymmetric catalytic transformations.
- As a key reagent in enantioselective synthesis, it ensures high yields and exceptional enantioselectivity in complex reactions.
- The phosphinooxazoline ligand's modular design enables tailored applications in transition metal catalyzed reactions, optimizing outcomes.
- This air-sensitive white powder offers a reliable solution for researchers focused on high yield enantioselectivity in chemical processes.
Advantages You Gain
Exceptional Enantioselectivity
Achieve unparalleled stereochemical control in your synthetic routes, a critical factor for pharmaceutical intermediates synthesis. The precise arrangement of atoms in our ligand guarantees optimal asymmetric synthesis outcomes.
Broad Catalytic Scope
This ligand is proven effective across a wide range of transition metal-catalyzed reactions, including asymmetric reduction and Heck reactions, enhancing its versatility for various fine chemical applications.
Tailorable Properties
The modular nature of phosphinooxazoline ligands allows for property customization, enabling chemists to fine-tune reaction conditions for specific targets and improve overall efficiency.
Key Applications
Asymmetric Hydrogenation
Utilize this chiral ligand for high-efficiency asymmetric hydrogenation of olefins and imines, contributing to the production of enantiomerically pure compounds.
Heck Reactions
The ligand's efficacy in Heck reactions ensures stable catalysis without undesired double bond isomerization, crucial for building complex organic frameworks.
Allylic Substitution
Experience improved control and selectivity in allylic substitution reactions, a cornerstone of many synthetic pathways in fine chemical manufacturing.
Catalysis Research
Ideal for academic and industrial research in catalysis, this ligand provides a reliable platform for exploring new reaction mechanisms and developing novel catalytic systems.
Related Technical Articles & Resources
Why Choose Us?
Leverage our expertise and state-of-the-art infrastructure to accelerate your journey from discovery to commercial success.
Global Experience
With 20 years of R&D, manufacturing, and sales experience, we proudly serve clients across 60 countries and regions worldwide.
Advanced Facilities
Our in-house R&D laboratory, pilot platform, and large-scale production workshop are equipped to meet the audit requirements of global customers.
Seamless Scalability
We facilitate a perfect transition from small-scale lab requirements (grams) to full commercialization (hundreds of tons).