Add to ORKGAn additive scheme for resolving average optical rotatory power of a molecule into atomic contributions, based on the acceleration gauge for the electric dipole, and/or the torque formalism, has been applied to hydrogen peroxide. Extended calculations have been carried out to test the reliability of the partition method. Gross atomic isotropic contributions to the average molecular property from oxygen and hydrogen atoms have been evaluated. The force and torque gauges provide different numerical values for atomic contributions
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...
An additive scheme for resolving average optical rotatory power of a molecule into atomic contributi...
A scheme for resolving average optical rotatory power of a molecule into atomic contributions, appli...
We applied a methodology capable of resolving the optical rotatory power into atomic contributions. ...
The chirality of molecules expresses itself, for example, in the fact that a solution of a chiral mo...
The chirality of molecules expresses itself, for example, in the fact that a solution of a chiral mo...
An additive scheme for resolving average molecular electric dipole polarizabilities into atomic cont...
An additive scheme for resolving average molecular electric dipole polarizabilities into atomic cont...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...
Two additive schemes for resolving average molecular electric dipole polarizabilities into atomic co...
Two additive schemes for resolving average molecular electric dipole polarizabilities into atomic co...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...
An additive scheme for resolving average optical rotatory power of a molecule into atomic contributi...
A scheme for resolving average optical rotatory power of a molecule into atomic contributions, appli...
We applied a methodology capable of resolving the optical rotatory power into atomic contributions. ...
The chirality of molecules expresses itself, for example, in the fact that a solution of a chiral mo...
The chirality of molecules expresses itself, for example, in the fact that a solution of a chiral mo...
An additive scheme for resolving average molecular electric dipole polarizabilities into atomic cont...
An additive scheme for resolving average molecular electric dipole polarizabilities into atomic cont...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...
Two additive schemes for resolving average molecular electric dipole polarizabilities into atomic co...
Two additive schemes for resolving average molecular electric dipole polarizabilities into atomic co...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
Author Institution: Citroil Aromatic, Inc., 320 Veterans Boulevard; Stevens Institute of Technology,...