Intermolecular Potential in Solid Methane. I. Cohesive Energy and Crystal Structure

The cohesive energy of crystalline methane is calculated for various possible structures, using a potential function consisting of repulsive and attractive interactions between nonbonded atoms. The necessary parameters were taken without adjustment from independent studies of other systems. It was found that the tetragonal structures of symmetry D3d have the best packing. The cohesive energy was increased when the unit cell was distorted from the cubic dimensions, the volume remaining constant. The maximum contribution of this distortion (about 1% of the total energy) occurs when the c axis of the unit cell is elongated 12%. The calculated stability of the crystal is not affected by slight displacements of the molecules along the c axis. On the other hand, the calculated stability of the crystal decreases upon rotation or upon distortions from Td symmetry of the individual molecules in the lattice.

[1]  J. H. Colwell,et al.  Thermodynamic Properties of CH4 and CD4. Interpretation of the Properties of the Solids , 1963 .

[2]  D. Hornig,et al.  Infrared Spectra and Structures of the Crystalline Phases of CH4 and CD4 , 1962 .

[3]  J. A. Morrison,et al.  Second Transition in Solid CH4 , 1962 .

[4]  M. S. Longmire,et al.  Scattering of High‐Velocity Neutral Particles. XII. He–CH4; He–CF4. CH4–CH4 and CF4–CF4 Interactions , 1961 .

[5]  E. Whalley Intermolecular Forces and Crystal Properties of Methane , 1959 .

[6]  A. D. Crowell Potential Energy Functions for Graphite , 1958 .

[7]  K. Pitzer,et al.  Electronic Correlation in Molecules. III. The Paraffin Hydrocarbons1 , 1956 .

[8]  G. S. Parks,et al.  Selected Values of Physical and Thermodynamic Properties of Hydrocarbons and Related Compounds. , 1954 .

[9]  E. R. Andrew,et al.  A nuclear magnetic resonance investigation of solid cyclohexane , 1953, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[10]  T. Nagamiya On the Zero Point Entropy of Methane Crystal , 1951 .

[11]  J. D. Boer The non spherical potential field between two hydrogen molecules , 1942 .

[12]  A. Muller Further Investigations of Solid n-Paraffins. (Repulsion Potential and Compressibility) , 1941 .

[13]  A. Schallamach X-ray investigation of the structure transition of methane at the λ point , 1939 .

[14]  C. Coulson,et al.  Theoretical calculation of steric effects in conjugated systems—I , 1963 .

[15]  C. F. Curtiss,et al.  Molecular Theory Of Gases And Liquids , 1954 .