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Related Concept Videos

¹H NMR of Conformationally Flexible Molecules: Temporal Resolution00:52

¹H NMR of Conformationally Flexible Molecules: Temporal Resolution

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At room temperature, the chair conformer of cyclohexane undergoes rapid ring flipping between two equivalent chair conformers at a rate of approximately 105 times per second. These two chair conformers are in equilibrium. The rapid ring flipping results in the interconversion of the axial proton to an equatorial proton and an equatorial to the axial proton. Such interconversions are too rapid and cannot be detected on the NMR timescale. Hence, the NMR spectrometer cannot distinguish between the...
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Peristaltic Motion in Structurally Adaptive Molecular Crystals Enables Selective Propyne Capture.

Yun-Hsien Lin1, Hayden A Evans2, Asif Raza3

  • 1Department of Chemistry, University of Houston, 112 Fleming Building, Houston, Texas 77204-5003, United States.

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|November 17, 2025
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Summary
This summary is machine-generated.

Cyclotetrabenzoin tetraacetate effectively separates propyne from propylene, outperforming cyclotetrabenzoin due to its higher surface area and unique structural flexibility for enhanced hydrocarbon adsorption.

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Area of Science:

  • Materials Science
  • Chemical Engineering
  • Crystallography

Background:

  • Macrocyclic porous molecular crystals are promising adsorbents for hydrocarbon separations.
  • Understanding guest-host interactions is crucial for designing efficient separation materials.

Purpose of the Study:

  • To investigate cyclotetrabenzoin and its tetraacetate as adsorbents for C3 hydrocarbons.
  • To elucidate the structure-property relationships governing propyne/propylene separation.

Main Methods:

  • Adsorption experiments were conducted under ambient conditions.
  • In situ synchrotron powder X-ray diffraction and molecular dynamics simulations were employed.
  • Single-crystal X-ray diffraction was used to analyze crystal structures.

Main Results:

  • Cyclotetrabenzoin tetraacetate demonstrated superior performance in separating propyne from propylene, achieving dynamic binary separation.
  • The tetraacetate exhibited higher surface area (570 vs. 42 m² g⁻¹), enhanced uptake capacity (1.99 vs. 1.19 mmol g⁻¹), and faster kinetics.
  • Molecular dynamics and X-ray diffraction revealed that structural adaptation, including pore enlargement and aromatic panel rotation, facilitates propyne capture in the tetraacetate.

Conclusions:

  • Subtle structural adaptations in porous materials significantly impact gas sorption and separation performance.
  • Cyclotetrabenzoin tetraacetate offers a new design strategy for gas separation using transiently porous and ultramicroporous molecules.