73151-74-3

Upstream product

• 67-56-1 methanol 
• 7605-04-1 exo-2-benzonorbornenyl chloride 
• 7605-05-2 endo-2-benzonorbornenyl chloride 
• 7605-04-1 exo-2-benzonorbornyl chloride 

Relevant academic research and scientific papers

Photolytic Cleavage of Remote Functional Groups in Polyfunctional Molecules. Photolysis of exo- and endo-Benzobicycloocten-2-yl Chloride

The aryl-induced photolytic cleavage of a remote C-Cl bond, earlier reported for the 2-position in the benzonorbornenyl series, is extended to the 2-position of the title compounds (exo-BBCl and endo-BBCl).Cleavage with 254-nm excitation is an efficient reaction (ψdis = 0.45 and 0.005, exo and endo, respectively), involving the aryl singlet excited state.Radical and carbocation derived products are observed (eq.3), with the latter including an olefin (8), a cyclopropane (9), and rearranged ethers (10 and 13) attributed to "hot" cation intermediates.The rate constants for C-Cl cleavage sre as follows: exo 1.1*109 s-1; exo 2.2.2>, 3.8*108 s-1; endo , 1.7*106 s-1; endo , 2.7*105 s-1.These rates are discussed within the context of previously proposed mechanisms.

Photolytic Cleavage of Remote Functional Groups in Polyfunctional Molecules. Photolysis of exo- and endo-2-Benzonorbornenyl Chlorides and Methanesulfonates

The photochemistry and photophysics of the title compounds are reported.The exo chloride exhibits a facile cleavage of the C - Cl bond upon excitation of the aryl chromophore (eq 1 - 3).The reaction has a rate > 700-fold larger than that observed with the endo isomer, derives from the singlet excited state, and leads to the formation of "hot" carbocations as well as free radicals.The exo mesylate shows similar characteristics (eq 4).A mechanism (Scheme II) is suggested which incorporates both heterolytic fission as well as sequential homolytic fission (to a polarized radical pair), followed by electron transfer to form an ion pair.The stereoelectronically controlled activation of the C - Cl and C - OMs moieties is explaned by a correlation diagram (Figure 5) which depicts the ?,?* state as correlating with the diradical product state through an avoided crossing with the C - X ?,?* state.Calculations indicate that this avoided crossing is considerably larger (and the barrier to reaction therefore considerably smaller) when the C - X unit in the 2-benzonorbornenyl series is exo.