1033769-28-6 | Gnf 5837

Packsize	Purity	Availability	Price	Discounted Price
1mg	98+%	in stock	$21.00	$15.00
5mg	98+%	in stock	$50.00	$35.00
50mg	98+%	in stock	$163.00	$114.00

Description

• Catalog Number: AE11228
• Chemical Name: Gnf 5837
• CAS Number: 1033769-28-6
• Molecular Formula: C28H21F4N5O2
• Molecular Weight: 535.4923
• MDL Number: MFCD24386809
• SMILES: O=C(Nc1cc(ccc1F)C(F)(F)F)Nc1ccc(c(c1)Nc1ccc2c(c1)NC(=O)/C/2=C\c1ccc[nH]1)C

Upstream Synthesis Route

GNF-5837 is a versatile compound that finds widespread application in chemical synthesis due to its unique properties. As a powerful catalyst, GNF-5837 is employed in various reactions to facilitate the formation of new chemical bonds, increase reaction rates, and enhance overall efficiency of the synthesis process. Its ability to selectively activate specific functional groups makes it an indispensable tool for chemists working in organic, inorganic, and organometallic chemistry.In organic synthesis, GNF-5837 has proven to be especially valuable in promoting complex transformations such as cross-coupling reactions, C-H functionalization, and asymmetric catalysis. Its high tolerance towards a wide range of functional groups enables the selective modification of complex molecules with precision and control. Furthermore, GNF-5837's ability to operate under mild reaction conditions minimizes side reactions and preserves the integrity of sensitive functional groups, making it ideal for the synthesis of intricate structures.In the realm of inorganic chemistry, GNF-5837 serves as a key player in the construction of metal-organic frameworks (MOFs), coordination polymers, and other coordination complexes. Its coordination chemistry allows for the controlled assembly of metal ions and organic ligands, leading to the formation of well-defined structures with tailored properties. By acting as a ligand or a mediator in metal-catalyzed reactions, GNF-5837 enables the design and synthesis of novel inorganic materials with potential applications in catalysis, gas storage, and sensing.In organometallic chemistry, GNF-5837 exhibits remarkable efficacy in mediating diverse transformations involving metal-carbon bonds. Its ability to activate and stabilize metal catalysts enhances their reactivity and selectivity towards desired products. By participating in key bond-forming steps, GNF-5837 facilitates the generation of complex organometallic intermediates that are crucial for the synthesis of pharmaceuticals, agrochemicals, and materials with advanced functionalities.Overall, the strategic utilization of GNF-5837 in chemical synthesis empowers researchers and practitioners to overcome synthetic challenges, discover novel reactions, and access a wide array of molecular architectures with enhanced properties. Its versatility, selectivity, and efficiency make it a valuable asset in the pursuit of innovative solutions and advancements in the field of chemistry.