Add to ORKGExpansions of benzene at 1–10 mol % in neon or helium with various nozzle types have produced clusters of benzene molecules. Preliminary comparisons with intensities from the bulk liquid and with model calculations based on solid state crystal structures suggest that on the average the clusters are probably considerably larger than a 13 molecule unit, and have a vibrational temperature on the order of 100–150 K. Unlike clusters of spherical or quasispherical molecules previously found to pack in nearly crystalline arrays, benzene molecules appear to be unable to organize into regular arrays in the time of our experiments. Local order in clusters is similar but not identical to that in the solid, resembling that expected for a supercooled li...
The structures of the simplest aromatic clusters, benzene clusters (C<sub>6</sub>H<sub>6</sub>)<sub>...
A method has been devised to study the kinetics of phase changes in an unfamiliar regime of extreme ...
Author Institution: Contribution from the Department of Chemistry, Purdue UniversityWe have carried ...
Expansions of benzene at 1–10 mol % in neon or helium with various nozzle types have produced cluste...
Large clusters of benzene were generated in supersonic flow through a Laval nozzle with carrier gase...
Information from electron diffraction studies of molecular clusters generated in nozzle flow has bee...
Expansions of n‐butane from small nozzles were observed to generate large clusters, provided that en...
Carbon tetrachloride at 3–11 mol % in neon carrier produces clusters of CCl4 molecules in flow throu...
We describe the apparatus and methods used to obtain electron diffraction patterns of low‐temperatur...
Expansions through small tapered nozzles (∼10−2 cm inlet diameter) have produced conformational cool...
Carbon tetrachloride at 3–11 mol % in neon carrier produces clusters of CCl4 molecules in flow throu...
The degree to which the repelling points-on-a-sphere representation of the valence-shell electron-pa...
Molecular clusters of $\rm MoF\sb6,$ $\rm WF\sb6,$ and tert-butyl thiol were generated by condensati...
A wide variety of clusters were obtained in seeded supersonic conical jet expansions of organic mole...
We perform electron diffraction of 1,4-dichlorobenzene (C6H4Cl2, referred to as 2ClB) embedded in su...
The structures of the simplest aromatic clusters, benzene clusters (C<sub>6</sub>H<sub>6</sub>)<sub>...
A method has been devised to study the kinetics of phase changes in an unfamiliar regime of extreme ...
Author Institution: Contribution from the Department of Chemistry, Purdue UniversityWe have carried ...
Expansions of benzene at 1–10 mol % in neon or helium with various nozzle types have produced cluste...
Large clusters of benzene were generated in supersonic flow through a Laval nozzle with carrier gase...
Information from electron diffraction studies of molecular clusters generated in nozzle flow has bee...
Expansions of n‐butane from small nozzles were observed to generate large clusters, provided that en...
Carbon tetrachloride at 3–11 mol % in neon carrier produces clusters of CCl4 molecules in flow throu...
We describe the apparatus and methods used to obtain electron diffraction patterns of low‐temperatur...
Expansions through small tapered nozzles (∼10−2 cm inlet diameter) have produced conformational cool...
Carbon tetrachloride at 3–11 mol % in neon carrier produces clusters of CCl4 molecules in flow throu...
The degree to which the repelling points-on-a-sphere representation of the valence-shell electron-pa...
Molecular clusters of $\rm MoF\sb6,$ $\rm WF\sb6,$ and tert-butyl thiol were generated by condensati...
A wide variety of clusters were obtained in seeded supersonic conical jet expansions of organic mole...
We perform electron diffraction of 1,4-dichlorobenzene (C6H4Cl2, referred to as 2ClB) embedded in su...
The structures of the simplest aromatic clusters, benzene clusters (C<sub>6</sub>H<sub>6</sub>)<sub>...
A method has been devised to study the kinetics of phase changes in an unfamiliar regime of extreme ...
Author Institution: Contribution from the Department of Chemistry, Purdue UniversityWe have carried ...