Studies of Hydrogen Peroxide: The Infrared Spectrum and the Internal Rotation Problem

Abstract

Several hydrogen peroxide infrared absorption bands have been obtained under 0.2 cm^—1 resolution. They demonstrate both doubling due to internal rotation and effects due to the inertial asymmetry. The ground‐state rotational constants are found to be: A″=10.068 cm^—1, B″=0.8740, C″=0.8384. These parameters indicate a wide dihedral angle for H₂O₂, as proposed in the following structure: OO bond=1.475 A, OH bond=0.950 A, dihedral angle=119.8°, and OOH angle=94.8°. The constants are applied to the microwave data for H₂O₂ and the deuterated species. The ground‐state splitting is found to be 11.44 cm^—1, and this, used with the recently reported torsion at 317 cm^—1, yields the barriers hindering internal rotation. They are V_cis=1300 cm^—1 and V_trans=300 cm^—1. A simple correlation of the infrared doublings is attempted.