Strong π-stacking causes unusually large anisotropic thermal expansion and thermochromism

Dharmarwardana, Madushani; Otten, Brooke M.; Ghimire, Mukunda M.; Arimilli, Bhargav S.; Williams, Christopher M.; Lü, Zhou; McCandless, Gregory T.; Gassensmith, Jeremiah J.; Omary, Mohammad A.

doi:10.1073/pnas.2106572118

Cited by 14 publications

(12 citation statements)

References 68 publications

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“…[7a,9] Recently, π-stacking interactions were used to attain anisotropic TE in a naphthalenediimide-based compound. [10] Materials exhibiting unique behaviors including NTE, ZTE, large PTE, or anisotropic TE are interesting and can be utilized to construct devices. For example, anisotropic expansion in materials has successfully been used to fabricate thermomechanical devices.…”

Section: Introductionmentioning

confidence: 99%

“…However, colossal anisotropic TE has been less reported in purely organic materials, especially single‐component organic solids [7a,9] . Recently, π‐stacking interactions were used to attain anisotropic TE in a naphthalenediimide‐based compound [10] . Materials exhibiting unique behaviors including NTE, ZTE, large PTE, or anisotropic TE are interesting and can be utilized to construct devices.…”

Section: Introductionmentioning

confidence: 99%

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Colossal Anisotropic Thermal Expansion in a Diazo‐Functionalized Compound with Switchable Solid‐State Behavior

Ding

Unruh

et al. 2023

Angew Chem Int Ed

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Achieving substantial anisotropic thermal expansion (TE) in solid‐state materials is challenging as most materials undergo volumetric expansion upon heating. Here, we describe colossal, anisotropic TE in crystals of an organic compound functionalized with two azo groups. Interestingly, the material exhibits distinct and switchable TE behaviors within different temperature regions. At high temperature, two‐dimensional, area zero TE and colossal, positive linear TE (α=211 MK−1) are attained due to dynamic motion, while at low temperature, moderate positive TE occurs in all directions. Investigation of the solid‐state motion showed the change in enthalpy and entropy are quite different in the two temperature regions and solid‐state NMR experiments support motion in the solid. Cycling experiments demonstrate that the solid‐state motions and TE behaviors are completely reversible. These results reveal strategies for designing significant anisotropic and switchable behaviors in solid‐state materials.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Colossal Anisotropic Thermal Expansion in a Diazo‐Functionalized Compound with Switchable Solid‐State Behavior

Ding

Unruh

et al. 2023

Angew Chem Int Ed

View full text Add to dashboard Cite

show abstract

Section: Introductionmentioning

confidence: 99%

“…14,15 Some uniaxial NTE compounds can be processed as preferred fibers or membranes, which can also meet practical applications. 16 Moreover, NTE can also be utilized to modify materials' physical and chemical properties, such as luminescence, 17,18 ferroelectric, 19 nonlinear optics, 20 gas adsorption, etc. 21,22 Compared with traditional inorganic NTE compounds, [23][24][25][26][27][28] the most outstanding characteristic of MOFs or coordination polymers (CPs) is their structural designability, which make them an ideal platform to realize NTE.…”

Section: Introductionmentioning

confidence: 99%

Anomalous thermal expansion of strontium squarate trihydrate induced by hydrogen-bond weakening

Liu

Wang

Xing

et al. 2023

Inorg. Chem. Front.

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“…However, those contribute to design catalysts and magnetic, optical, high energy materials . Aromatic π-stacking in a self-assembly influences physical properties like conductance, proton transfer, etc . Herringbone arrangement is a term used for organized π-stacks and has broad dimensions for material design .…”

Section: Introductionmentioning

confidence: 99%

π-Stacking among the Anthracenyl Groups of a Copper Complex Resulted in Doubling of Unit Cell Volume To Provide New Polymorphs

Singh

Baruah

2023

ACS Omega

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T w o p o l y m o r p h s o f t h e 9 -N -( 3imidazolylpropylamino)methylanthracene (Hanthraimmida) containing hydrated copper(II)-2,6-pyridinedicarboxylate complex are reported. The two polymorphs have either lamellar or Herringbone arrangements of π-stacks among the anthracenyl groups of organocation. The difference between the two polymorphs originated from having face-to-face stacking arrangements between the two anthracenyl groups of the symmetry independent cations within the unit cell in one of the polymorphs. The π-stacked anthracenyl groups in consecutive layers of the polymorphs are oriented in one direction in the polymorph designated as P1, whereas the polymorph designated as P2 has such orientations in opposite directions. The unit cell volume of the polymorph P2 (Z = 4) has approximately twice the volume of the polymorph P1 (Z = 2); it happend due to coalescence of two unit cells of P1 in the ab-crystallographic plane. A mixed methanol/water solvate of the copper complex is also reported. It has a channel-like arrangement of the cations; has the anions and the solvents within the cation embraced channel-like enclosures. This complex is unstable, once taken out from the methanol solvent, it transforms in real time to P2 by replacements of the methanol molecules by water molecules.

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Strong π-stacking causes unusually large anisotropic thermal expansion and thermochromism

Cited by 14 publications

References 68 publications

Colossal Anisotropic Thermal Expansion in a Diazo‐Functionalized Compound with Switchable Solid‐State Behavior

Colossal Anisotropic Thermal Expansion in a Diazo‐Functionalized Compound with Switchable Solid‐State Behavior

Anomalous thermal expansion of strontium squarate trihydrate induced by hydrogen-bond weakening

π-Stacking among the Anthracenyl Groups of a Copper Complex Resulted in Doubling of Unit Cell Volume To Provide New Polymorphs

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