Manijeh Tozihi scite author profile

Ozone water reaction including a complex was studied at the MP2/6-311++G(d,p) and CCSD/6-311++G(2df,2p)//MP2/6-311++G(d,p) levels of theory. The interaction between water oxygen and central oxygen of ozone produces stable H 2 O-O 3 complex with no barrier. With decomposition of this complex through H-abstraction by O 3 and O-abstraction by H 2 O, three possible product channels were found. Intrinsic reaction coordinate, topological analyses of atom in molecule, and vibrational frequency calculation have been used to confirm the preferred mechanism. Thermodynamic data at T = 298.15 K and atmospheric pressure have been calculated. The results show that the production of hydrogen peroxide is the main reaction channel with ¨G = -21.112 kJ mol -1 .

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Mechanistic Study on the Ozone‐Mercury Reaction and the Effect of Water and Water Dimer Molecules

Vahedpour

Tozihi

Nazari

2011

J Chinese Chemical Soc

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The thermodynamics and mechanism of the reaction of elemental mercury with ozone has been studied computationally. The effect of water and water dimer molecules on the reaction has also been investigated. For dry reaction, we obtained two pathways and geometry optimization, atoms in molecules analysis and vibrational frequencies of all component of reaction have been used for confirming of reaction mechanism. Thermodynamic variable of reaction has been calculated. For the reaction in the presence of the water, our studies focus on ozone-mercury complex reaction with water and water dimer and obtained the mechanism of reactions. Comparison of wet and dry reaction shows the energy profile of reaction decreases with water molecule correspond to experimental prediction. Calculated thermodynamic variable of all reaction shows the Gibbs free energy of reaction decreases with the number of water molecule.

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Soft X-ray absorption spectroscopy of Ar₂ and ArNe dimers and small Ar clusters

Jabbari

Miteva

Stumpf

et al. 2015

Phys. Chem. Chem. Phys.

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The X-ray absorption spectra (XAS) of Ar2 and ArNe dimers and small Ar clusters in the L2,3 region (244-252 eV) of the Ar atom have been recorded using synchrotron light and a combination of coincidence methods and kinetic energy discrimination of energetic ions. The absorption peaks in the spectra of the dimers and clusters were found to be shifted and broadened relative to the peaks in the spectrum of the Ar atom. In order to unambiguously relate these chemical shifts to the electronic structure of the core excited states in dimers, we performed ab initio calculations of the XAS spectra. Implications of the results for the use of XAS as a structure determination method in large rare gas clusters are discussed.

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Manijeh Tozihi

Ab initio intermolecular potential energy surfaces of He–CS₂, Ne–CS₂ and Ar–CS₂ complexes

Ion mobility spectrometry and theoretical study for investigation of thermal decomposition, chemical ionization, and dimer formation of proline

A theoretical study on the mechanism and thermodynamics of ozone-water gas phase reaction

Mechanistic Study on the Ozone‐Mercury Reaction and the Effect of Water and Water Dimer Molecules

Soft X-ray absorption spectroscopy of Ar₂ and ArNe dimers and small Ar clusters

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Manijeh Tozihi

Ab initio intermolecular potential energy surfaces of He–CS2, Ne–CS2 and Ar–CS2 complexes

Ion mobility spectrometry and theoretical study for investigation of thermal decomposition, chemical ionization, and dimer formation of proline

A theoretical study on the mechanism and thermodynamics of ozone-water gas phase reaction

Mechanistic Study on the Ozone‐Mercury Reaction and the Effect of Water and Water Dimer Molecules

Soft X-ray absorption spectroscopy of Ar2 and ArNe dimers and small Ar clusters

Contact Info

Product

Resources

About

Ab initio intermolecular potential energy surfaces of He–CS₂, Ne–CS₂ and Ar–CS₂ complexes

Soft X-ray absorption spectroscopy of Ar₂ and ArNe dimers and small Ar clusters