11. Molecular organization is often controlled via intermolecular forces such as hydrogen bonding. 12. These intermolecular forces result from electrostatic interactions between gas particles. 13. Real gases experience some of these collisions and intermolecular forces. 14. The former are due to intermolecular exchange and charge penetration. 15. This is because solvent cage effects could be masking an intermolecular mechanism. 16. This is because the intermolecular force quickly vanishes past the point of equilibrium. 17. In solution, the process proceeds with intra-and intermolecular energy transfer. 18. The compound gets cycled and forms inosinate after a sort of intermolecular reactions. 19. Other free carbenes are not stable and are susceptible to intermolecular decomposition pathways. 20. Despite mediocre yields, intermolecular cycloadditions of indole derivatives have been well documented.
