Structure & Deep Data of Edonentan (C29H39FN2O7S)
Chemical Structure Description
A chemical structure of a molecule includes the arrangement of atoms and the chemical bonds that hold the atoms together. The edonentan molecule contains a total of 82 bond(s). There are 43 non-H bond(s), 15 multiple bond(s), 14 rotatable bond(s), 3 double bond(s), 12 aromatic bond(s), 2 five-membered ring(s), 2 six-membered ring(s), 1 nine-membered ring(s), 1 carboxylic acid(s) (aliphatic), 1 tertiary amine(s) (aliphatic), 1 hydroxyl group(s), 3 ether(s) (aromatic), 1 sulfonamide(s) (thio-/dithio-), and 1 Pyrrolidine(s).
The 2D chemical structure image of edonentan is also called skeletal formula, which is the standard notation for organic molecules. The carbon atoms in the chemical structure of edonentan are implied to be located at the corner(s) and hydrogen atoms attached to carbon atoms are not indicated – each carbon atom is considered to be associated with enough hydrogen atoms to provide the carbon atom with four bonds.
The 3D chemical structure image of edonentan is based on the ball-and-stick model which displays both the three-dimensional position of the atoms and the bonds between them. The radius of the spheres is therefore smaller than the rod lengths in order to provide a clearer view of the atoms and bonds throughout the chemical structure model of edonentan. Download structure data file (SDF/MOL) file of this compound.
Interactive 3D Visualization
For a better understanding of the chemical structure, an interactive 3D visualization of edonentan is provided here. The edonentan molecule shown in the visualization screen can be rotated interactively by keep clicking and moving the mouse button. Mouse wheel zoom is available as well – the size of the edonentan molecule can be increased or decreased by scrolling the mouse wheel.
The information of the atoms, bonds, connectivity and coordinates included in the chemical structure of edonentan can easily be identified by this visualization. By right-clicking the visualization screen, various other options are available including the visualization of van der Waals surface and exporting to an image file.
Chemical Structure Description
A chemical structure of a molecule includes the arrangement of atoms and the chemical bonds that hold the atoms together. The edonentan molecule contains a total of 82 bond(s). There are 43 non-H bond(s), 15 multiple bond(s), 14 rotatable bond(s), 3 double bond(s), 12 aromatic bond(s), 2 five-membered ring(s), 2 six-membered ring(s), 1 nine-membered ring(s), 1 carboxylic acid(s) (aliphatic), 1 tertiary amine(s) (aliphatic), 1 hydroxyl group(s), 3 ether(s) (aromatic), 1 sulfonamide(s) (thio-/dithio-), and 1 Pyrrolidine(s).
The 2D chemical structure image of edonentan is also called skeletal formula, which is the standard notation for organic molecules. The carbon atoms in the chemical structure of edonentan are implied to be located at the corner(s) and hydrogen atoms attached to carbon atoms are not indicated – each carbon atom is considered to be associated with enough hydrogen atoms to provide the carbon atom with four bonds.
The 3D chemical structure image of edonentan is based on the ball-and-stick model which displays both the three-dimensional position of the atoms and the bonds between them. The radius of the spheres is therefore smaller than the rod lengths in order to provide a clearer view of the atoms and bonds throughout the chemical structure model of edonentan. Download structure data file (SDF/MOL) file of this compound.
Interactive 3D Visualization
For a better understanding of the chemical structure, an interactive 3D visualization of edonentan is provided here. The edonentan molecule shown in the visualization screen can be rotated interactively by keep clicking and moving the mouse button. Mouse wheel zoom is available as well – the size of the edonentan molecule can be increased or decreased by scrolling the mouse wheel.
The information of the atoms, bonds, connectivity and coordinates included in the chemical structure of edonentan can easily be identified by this visualization. By right-clicking the visualization screen, various other options are available including the visualization of van der Waals surface and exporting to an image file.