60170-73-2

Upstream product

• 542-92-7 cyclopenta-1,3-diene 
• 100-44-7 benzyl chloride 

Downstream Products

• 123245-93-2 benzylcyclopentadienylthallium 
• 193222-29-6 (C₅H₄(CH₂C₆H₅))Ru(P(C₆H₅)3)2Cl 
• 151753-19-4 η(5)-benzylcyclopentadienylcobalt-η(4)-tetraphenylbutadiene 
• 1589503-64-9 (η⁵-C₅H₄CH₂Ph)Fe(CO)₂SiMe₂Ph 
• 1589503-55-8 (η⁵-C₅H₄CH₂Ph)Fe(CO)₂SiPh₃ 
• 126752-03-2 TiCl₂(C₅H₄CH₂C₆H₅)(C₅H₄CH₂CH(CH₂)3O) 

Relevant academic research and scientific papers

Formation and synthetic utility of benzyl- and phenyl-cyclopentadienylthallium

Benzyl- and phenyl-cyclopentadiene have been shown to react with thallium ethoxide in ethanol to give the corresponding benzyl- and phenyl-cyclopentadienylthallium compounds in excellent yield.These reagents are air stable for brief periods, have extended shelf-lives, and have been shown to be superior starting materials for the synthesis of a variety of cyclopentadienylmetal complexes.

Relative Importance of Dissociative Loss of Carbon Monoxide and Formation of Benzyl Radicals from Photoexcitation of (η5-C5R5)Fe(CO)2(η1-CH2C6H5) and Evidence for Reaction of Carbon Monoxide with 17-Electron Radicals

Near-UV irradiation of (η5-C5R5)Fe(CO)2(η1-CH2C6H5) (R=H, Me) yields both loss of CO and CH2C6H5 radicals as primary photoprocesses, though the loss of CO dominates the excited-state chemistry.At 77 K in a rigid alkane matrix the only detectable photoreaction is loss of CO to form (η5-C5R5)Fe(CO)(η3-CH2C6H5).In fluid alkane solution at 298 K the dominant metal-containing photoproduct is (η5-C5R5)2Fe2(CO)4, unless the solution is actively purged with a stream of an inert gas such as Ar or N2.When the solution is purged with Ar there are two main products: (η5-C5R5)Fe(CO)(η3-CH2C6H5) (90-95percent) and (η5-C5R5)2Fe2(CO)4 (5-10percent).The 366-nm quantum efficiency for CO loss is ca. 0.5, and that for CH2C6H5 loss is ca. 0.05.When (η5-C5R5)Fe(CO)2(η1-CH2C6H5) is irradiated under 2 atm of CO in alkane solution at 298 K (η4-C5R5(CH2C6H5))Fe(CO)3 is formed in good chemical yield (>50percent).X-ray crystallography establishes (η4-C5Me5(CH2C6H5))Fe(CO)3 to have the CH2C6H5 group in an exo position.The formation of (η4-C5R5(CH2C6H5))Fe(CO)3 occurs via light-induced loss of a CH2C6H5 radical from (η5-C5R5)Fe(CO)2(η1-CH2C6H5) followed by reaction of (η5-C5R5)Fe(CO)2 with CO to form (C5R5)Fe(CO)3 that then couples with a CH2C6H5 radical to give the exo isomer of (η4-C5R5(CH2C6H5))Fe(CO)3.