Universal behavior of linear alkanes in a confined medium: Toward a calibrationless use of thermoporometry

Article Abstract:

A general law is derived from predicting the transition temperature of linear alkanes confined in nanoporous materials from the simple knowledge of the free solvent transition temperature. The law is in very good agreement for substituted benzenes, attesting a possible universal behavior of confined solvents.

Analysis, Calibration, Alkanes, Crystallization, Properties, Structure

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A general law for predictive use of thermoporosimetry as a tool for the determination of textural properties of divided media

Article Abstract:

The use of nanoporous silica gels to calibrate the thermoporosimetry technique with various aromatic solvents including o-, m-, and p-xylene, p-dichlorobenzene is described. Its use to determine textural properties of divided media is examined.

Industrial Organic Chemicals, Petrochemical Manufacturing, Cyclic Crude and Intermediate Manufacturing, Dichlorobenzene, Xylenes, Chemistry, Physical and theoretical, Physical chemistry, Aromatic compounds, Xylene, Chemical properties

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