Shapeshifting molecules: the story so far and the shape of things to come

Bismillah, Aisha N.; Chapin, Brette M.; Hussein, Burhan A.; McGonigal, Paul R.

doi:10.1039/c9sc05482k

Cited by 36 publications

(29 citation statements)

References 79 publications

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Section: Methodsmentioning

confidence: 99%

“…So far, NMR spectroscopy has been employed for the analysis of shape‐shifting mixtures, but it is an arduous task to conclusively identify the individual structures rather than derive averaged chemical properties. However, as shown, the isolation conditions granted by the supersonic expansion enabled the study of each structure separately, instead of trying to deconvolute the dynamic equilibria in the condensed phase, [11, 30] which may be perturbed due to interactions with the environment. We are fiercely exploring the full scope and capabilities of rotational spectroscopy coupled to a laser‐ablation vaporization source as a reliable characterization technique to unravel dynamic molecular systems.…”

Section: Figurementioning

confidence: 99%

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Shape‐Shifting Molecules: Unveiling the Valence Tautomerism Phenomena in Bare Barbaralones

et al. 2022

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We report a state‐of‐the‐art spectroscopic study of an archetypical barbaralone, conclusively revealing the valence tautomerism phenomena for this bistable molecular system. The two distinct 1‐ and 5‐substituted valence tautomers have been isolated in a supersonic expansion for the first time and successfully characterized by high‐resolution rotational spectroscopy. This work provides irrefutable experimental evidence of the [3,3]‐rearrangement in barbaralones and highlights the use of rotational spectroscopy to analyze shape‐shifting mixtures. Moreover, this observation opens the window toward the characterization of new fluxional systems in the isolation conditions of the gas phase and should serve as a reference point in the general understanding of valence tautomerism.

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Section: Methodsmentioning

confidence: 99%

Section: Figurementioning

confidence: 99%

Shape‐Shifting Molecules: Unveiling the Valence Tautomerism Phenomena in Bare Barbaralones

et al. 2022

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“…So far, NMR spectroscopy has been employed for the analysis of shapeshifting mixtures, but it is an arduous task to conclusively identify the individual structures rather than derive averaged chemic al properties. How ever, as show n, the isolation conditions granted by the supersonic expansion enabled the study of each structure separately, instead of trying to deconvolute the dynamic equilibr ia in the condensed phase [11,30], w hich may be perturbed due to interactions w ith the environment. We are fiercely exploring the full scope and capabilities of rotational spectroscopy coupled to a laser-ablation vaporization source as a reliable characterization technique to unravel dynamic molecular systems.…”

Section: Accepted Manuscriptmentioning

confidence: 99%

Cover Picture: Shape‐Shifting Molecules: Unveiling the Valence Tautomerism Phenomena in Bare Barbaralones (Angew. Chem. Int. Ed. 18/2022)

et al. 2022

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Shape‐shifting molecules were probed in the gas phase, which conclusively unveiled the valence tautomerism phenomena for an archetypal barbaralone as described by José L. Alonso et al. in their Communication (e202117045). The two valence tautomers of this bistable molecular system were isolated in a supersonic jet for the first time and characterized by high‐resolution rotational spectroscopy coupled with laser ablation techniques. This observation opens the door towards the characterization of new fluxional systems under isolation conditions.

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“…For example, in bulk self-assembly, the spherical molecules promote the formation of the plastic crystalline mesophases that have a long-range positional order but a short-range orientational order, whereas the cylindrical and discotic molecules facilitate the formation of the smectic and columnar liquid crystalline mesophases that have a longrange orientational order but a short-range positional order. 7,10−12 Although shapeshifting molecules have been developed to release the restrictions on the well-defined shapes of molecules and have thus been utilized in the adaptive chemistry, 13,14 the studies emphasized how the molecular shapeshifting alters the host−guest complexes in the solution phase. Besides, complexing the geometrical feature by synthesizing molecular shape amphiphiles, which possess building blocks of distinct shapes, also did not diversify the self-assembly pathway of synthetic molecules as each shape amphiphile still self-assembled into a specific supramolecular scaffold preferred by one of the constituent building blocks.…”

Section: ■ Introductionmentioning

confidence: 99%

Connecting Molecular and Supramolecular Shapeshifting by the Ostwald’s Nucleation Stages of a Star Giant Molecule

Hsu

Cheng

et al. 2022

J. Am. Chem. Soc.

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The shapeshifting behavior for synthetic matters was found at either the molecular or supramolecular level, but the connection between shapeshifting at the two hierarchical levels remains missing. In this study, an 8-arm star giant molecule, NPOSS, was synthesized to connect the molecular and supramolecular shapeshifting. Controlling the conditions of bulk self-assembly allowed us to bring NPOSS into three different Ostwald’s stages of nucleation. The high conformational flexibility of NPOSS facilitates molecular shapeshifting and allows NPOSS to take the discotic, rod-like and star-like geometries in different Ostwald’s stages. Simultaneous changes in the supramolecular scaffolds were observed as the discotic, rod-like and star-like NPOSS molecules self-assembled into the supramolecular scaffolds of 1D columns, 2D lamellae, and 3D networks, respectively. These changes in the hierarchical structures also affect the CO2 affinity of NPOSS. Therefore, the connection between the molecular/supramolecular shapeshifting and the structure-driven property changes of NPOSS were established by taking advantage of the high conformational freedom of the 8-arm star giant molecule and its diverse self-assembly pathways leading to the different Ostwald’s stages.

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Shapeshifting molecules: the story so far and the shape of things to come

Abstract: This review describes the synthesis and application of shapeshifting molecules, whose covalent skeletons dynamically reconfigure in response to their surroundings.

Cited by 36 publications

References 79 publications

Shape‐Shifting Molecules: Unveiling the Valence Tautomerism Phenomena in Bare Barbaralones

Shape‐Shifting Molecules: Unveiling the Valence Tautomerism Phenomena in Bare Barbaralones

Cover Picture: Shape‐Shifting Molecules: Unveiling the Valence Tautomerism Phenomena in Bare Barbaralones (Angew. Chem. Int. Ed. 18/2022)

Connecting Molecular and Supramolecular Shapeshifting by the Ostwald’s Nucleation Stages of a Star Giant Molecule

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