K. Mani Bushan scite author profile

An investigation of potential photosensitive protecting groups for diazeniumdiolates (R2N-N(O)=NO-) has been initiated, and here the effect of meta electron-donating groups on the photochemistry of O2-benzyl-substituted diazeniumdiolates (R2N-N(O)=NOCH2Ar) is reported. Photolysis of the parent benzyl derivative (Ar = Ph) results almost exclusively in undesired photochemistry-the formation of nitrosamine and an oxynitrene intermediate with very little, if any, photorelease of the diazeniumdiolate. We have been able to use meta substitution to tune the photochemistry of these benzylic systems. The desired diazeniumdiolate photorelease has been shown to become more substantial with stronger pi-donating meta substituents. This effect has been verified by direct observation of the photoreleased diazeniumdiolate with 1H NMR spectroscopy and by NO quantification measurements conducted in high- and low-pH solutions. In addition, the observed rates of NO release are consistent with that expected for normal thermal decomposition of the diazeniumdiolate in aqueous solutions and also show the same pH dependence.

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Controlled Photochemical Release of Nitric Oxide from O²-Naphthylmethyl- and O²-Naphthylallyl-Substituted Diazeniumdiolates

Bushan

Ruane

et al. 2002

J. Am. Chem. Soc.

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The photochemistry of O2-naphthylmethyl- and O2-naphthylallyl-substituted diazeniumdiolates has been investigated. Electron-donating methoxy group substitution is shown to have a significant effect on the observed photochemistry, with the appropriate substitution pattern resulting in efficient diazeniumdiolate photorelease. Observed nitric oxide release rates from these photoprecursors are consistent with those expected for normal thermal dissociation of the diazeniumdiolate in aqueous solutions and show the same pH dependence.

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Generation of electrophilic phenyltellurium and phenylselenium species via photochemical electron transfer

Bushan

Gopal

Reddy

et al. 1998

Journal of Photochemistry and Photobiology A: Chemistry

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Ionic Photodissociation in Arylallyl Acetates¶

Srinivas

Reddy

et al. 2007

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We have synthesized several 3‐arylallyl acetates 1, 2, 3, 5 and 6, and E‐3‐(1‐naphthyl)‐2‐propene‐1‐ol 4 for studying ionic photodissociation. Compounds 1, 2 and 3 underwent an efficient ionic photodissociation in polar solvents like acetonitrile and methanol leading to the formation of rearranged acetate and methyl ether products, as well as undergoing an E–Z isomerization. The arylallyl alcohol 4 and the two arylallyl acetates 5 and 6 did not undergo ionic photodissociation. Quantum yields of product formation, quantum yields of fluorescence, solvent polarity effects and triplet‐sensitization studies indicated that a highly polarized excited singlet state is responsible for the ionic photodissociation. Both the singlet‐ and triplet‐excited states are effective in displaying E–Z isomerization in 1, 2, 3 and 4. Compounds 5 and 6 are highly fluorescent, and the fluorescence may be the excited state deactivation pathway along with internal conversion.

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Dynamics of Switch-Binding by a Linear Ligand That Transforms to a Macrocycle upon Chelation to a Metal Ion: Synthesis, Kinetics, and Equilibria

Hassan

Zhang

Lee

et al. 2006

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K. Mani Bushan

Controlled Photochemical Release of Nitric Oxide fromO²-Benzyl-Substituted Diazeniumdiolates

Controlled Photochemical Release of Nitric Oxide from O²-Naphthylmethyl- and O²-Naphthylallyl-Substituted Diazeniumdiolates

Generation of electrophilic phenyltellurium and phenylselenium species via photochemical electron transfer

Ionic Photodissociation in Arylallyl Acetates¶

Dynamics of Switch-Binding by a Linear Ligand That Transforms to a Macrocycle upon Chelation to a Metal Ion: Synthesis, Kinetics, and Equilibria

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K. Mani Bushan

Controlled Photochemical Release of Nitric Oxide fromO2-Benzyl-Substituted Diazeniumdiolates

Controlled Photochemical Release of Nitric Oxide from O2-Naphthylmethyl- and O2-Naphthylallyl-Substituted Diazeniumdiolates

Generation of electrophilic phenyltellurium and phenylselenium species via photochemical electron transfer

Ionic Photodissociation in Arylallyl Acetates¶

Dynamics of Switch-Binding by a Linear Ligand That Transforms to a Macrocycle upon Chelation to a Metal Ion: Synthesis, Kinetics, and Equilibria

Contact Info

Product

Resources

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Controlled Photochemical Release of Nitric Oxide fromO²-Benzyl-Substituted Diazeniumdiolates

Controlled Photochemical Release of Nitric Oxide from O²-Naphthylmethyl- and O²-Naphthylallyl-Substituted Diazeniumdiolates