Add to ORKGThe association/dissociation reaction path for ozone (O2 + O ↔ O3) is notoriously difficult to describe accurately using ab initio electronic structure theory, due to the importance of both strong and dynamic electron correlations. Experimentally, spectroscopic studies of the highest lying recorded vibrational states combined with the observed negative temperature dependence of the kinetics of oxygen isotope exchange reactions confirm that the reaction is barrierless, consistent with the latest potential energy surfaces. Previously reported potentials based on Davidson-corrected internally contracted multireference configuration interaction (MRCI) suffer from a spurious reef feature in the entrance channel even when extrapolated towards the...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
The isotopic ratios for ozone observed in laboratory and atmospheric measurements, known as the ozon...
The present Letter shows that the formation of ozone in ternary collisions O + O2 + M—the primary me...
A new accurate global potential energy surface for the ground electronic state of ozone [R. Dawes et...
The kinetics and dynamics of several O + O2 isotope exchange reactions have been investigated on a r...
Reactions with ozone transform organic and inorganic molecules in water treatment systems as well as...
Reactions with ozone transform organic and inorganic molecules in water treatment systems as well as...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
A modified ab initio potential energy surface (PES) is used for calculations of ozone recombination ...
We report a new full-dimensional and global potential energy surface (PES) for the O + O2 → O3 ozone...
\begin{wrapfigure}{r}{0pt} \includegraphics[scale=0.7]{ISMS2016.eps} \end{wrapfigure} A new accu...
A theoretical approach is developed for the description of all possible recombination pathways in th...
Atmospheric ozone is formed by the O + O2 exchange reaction followed by collisional stabilization of...
The lowest five 1A\u27states of ozone, involved in the photodissociation with UV light, are analyzed...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
The isotopic ratios for ozone observed in laboratory and atmospheric measurements, known as the ozon...
The present Letter shows that the formation of ozone in ternary collisions O + O2 + M—the primary me...
A new accurate global potential energy surface for the ground electronic state of ozone [R. Dawes et...
The kinetics and dynamics of several O + O2 isotope exchange reactions have been investigated on a r...
Reactions with ozone transform organic and inorganic molecules in water treatment systems as well as...
Reactions with ozone transform organic and inorganic molecules in water treatment systems as well as...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
A modified ab initio potential energy surface (PES) is used for calculations of ozone recombination ...
We report a new full-dimensional and global potential energy surface (PES) for the O + O2 → O3 ozone...
\begin{wrapfigure}{r}{0pt} \includegraphics[scale=0.7]{ISMS2016.eps} \end{wrapfigure} A new accu...
A theoretical approach is developed for the description of all possible recombination pathways in th...
Atmospheric ozone is formed by the O + O2 exchange reaction followed by collisional stabilization of...
The lowest five 1A\u27states of ozone, involved in the photodissociation with UV light, are analyzed...
The mechanisms of the initial step in chemical reaction between ozone and ethylene were studied by m...
The isotopic ratios for ozone observed in laboratory and atmospheric measurements, known as the ozon...
The present Letter shows that the formation of ozone in ternary collisions O + O2 + M—the primary me...