For more information regarding this plugin, see Geometrical Descriptors Plugin.
Returns the number of atoms in the molecule having no aromatic bond (excluding hydrogens).
Returns the number of non-aromatic bonds in the molecule (excluding bonds of hydrogen atoms).
Returns the number of those rings in the molecule, which have non-aromatic bonds (SSSR based).
Returns number of atoms in the molecule having aromatic bonds.
Returns the number of aromatic bonds in the molecule.
Returns the number of aromatic rings in the molecule. This number is calculated from the smallest set of smallest aromatic rings (SSSAR), which might contain rings that are not part of the standard SSSR ring set. As a consequence, the sum of the aliphatic ring count and the aromatic ring count can sometimes be greater than the ring count value. The difference is the sign of a macroaromatic ring system.
Returns the number of asymmetric atoms (having four different ligands).
Returns the Balaban distance connectivity of the molecule, which is the average distance sum connectivity.
Returns the number of bonds in the molecule including hydrogens.
Returns the number of those rings in the molecule, which contain carbon atoms only.
Returns the number of chain atoms (non-ring atoms excluding hydrogens).
Returns the number of chain bonds (non-ring bonds excluding bonds of hydrogen atoms).
Returns the number of tetrahedral stereogenic centers in the input molecule.
Returns TRUE if the input molecule graph is connected.
Returns the smallest number of bonds that must be removed such that no circuit remains. Also known as circuit rank.
Calculates the energy related to the 3D structure (conformation) of the molecule using DREIDING force field.
Returns the number of fused rings in the molecule (having common bonds).
Returns the number of aliphatic rings having common bonds with other rings.
Returns the number of aromatic rings having common bonds with other rings.
Returns the half-sum of the off-diagonal elements of the reciprocal molecular distance matrix of the molecule.
Returns number of aromatic heterocycles in the molecule.
Returns the number of those rings in the molecule, which contain heteroatoms.
Returns a variant of the Wiener index.
Returns the size of the largest ring in the molecule.
Returns the size of the largest ring system in the input molecule.
Calculates the maximum of projection areas of the conformer, based on the van der Waals radius (in Å2).
Calculates the radius for the maximal projection area of the conformer (in Å).
Returns the maximum z coordinate of the bounding box.
Calculates the minimum of projection areas of the conformer, based on the van der Waals radius (in Å2).
Calculates the radius for the minimal projection area of the conformer (in Å).
Returns the minimum z coordinate of the bounding box.
Calculates the van der Waals volume of the molecule (in Å3).
Returns the sum of the edge degrees of a molecular graph.
Returns the harmonic sum of the geometric means of the node degrees for each edge.
Returns the number of ring bonds.
Returns the number of rings in the molecule. This calculation is based on SSSR (Smallest Set of Smallest Rings).
Returns the number of ring systems in the input molecule.
Returns the number of rotatable bonds in the molecule. Unsaturated bonds and single bonds connected to hydrogens or terminal atoms, single bonds of amides, sulphonamides, and those connecting two hindered aromatic rings (having at least three ortho substituents) are considered non-rotatable.
Returns the size of the smallest ring in the molecule.
Returns the size of the smallest ring system in the input molecule.
The Szeged index extends the Wiener index for cyclic graphs by counting the number of atoms on both sides of each bond (those atoms only which are nearer to the given side of the bond than to the other), and sum these counts.