<scp>Vase</scp>‐<scp>Kite</scp> Equilibrium of Resorcin[4]arene Cavitands Investigated Using Molecular Dynamics Simulations with Ball‐and‐Stick Local Elevation Umbrella Sampling

Hahn, David F.; Milić, Jovana V.; Hünenberger, Philippe H.

doi:10.1002/hlca.201900060

Cited by 3 publications

(8 citation statements)

References 152 publications

(232 reference statements)

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“…These timescales are still not accessible for conventional MD simulations: low‐energy states relevant to these processes are separated by high‐energy barriers in the free‐energy landscape, which are rarely crossed over the course of a single unbiased MD simulation [12] . Recently, the exchange dynamics of related non‐hydrogen bonded cavitands with lower conformational interconversion barriers have been studied [13] …”

Section: Introductionmentioning

confidence: 99%

Comprehensive Characterization of the Self‐Folding Cavitand Dynamics

López-Coll

Álvarez‐Yebra

Feixas

et al. 2021

Chemistry A European J

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The conformational equilibria and guest exchange process of a resorcin[4]arene derived self‐folding cavitand receptor have been characterized in detail by molecular dynamics simulations (MD) and 1H EXSY NMR experiments. A multi‐timescale strategy for exploring the fluxional behaviour of this system has been constructed, exploiting conventional MD and accelerated MD (aMD) techniques. The use of aMD allows the reconstruction of the folding/unfolding process of the receptor by sampling high‐energy barrier processes unattainable by conventional MD simulations. We obtained MD trajectories sampling events occurring at different timescales from ns to s: 1) rearrangement of the directional hydrogen bond seam stabilizing the receptor, 2) folding/unfolding of the structure transiting partially open intermediates, and 3) guest departure from different folding stages. Most remarkably, reweighing of the biased aMD simulations provided kinetic barriers that are in very good agreement with those determined experimentally by 1H NMR. These results constitute the first comprehensive characterization of the complex dynamic features of cavitand receptors. Our approach emerges as a valuable rational design tool for synthetic host‐guest systems

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Section: Introductionmentioning

confidence: 99%

Comprehensive Characterization of the Self‐Folding Cavitand Dynamics

López-Coll

Álvarez‐Yebra

Feixas

et al. 2021

Chemistry A European J

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“…We hypothesize at this stage, that electrostatic interactions between the semiquinone radical anion and the nearby quinoxaline walls as well as solvatione ffects facilitate the vase formation besides possible macrocycle strain effects. [43] The newly gained insights will pave the way to develop the next generation of light-activated molecular grippers and their implementation as sensors and nanodevices. Furthermore, the ability of cavitands 2-4,a nd 6 to be activated by multiple stimuli (host-guest interactions, solventc hanges, light,a nd chemicala nd electrochemical reactions), placed them as valuable switching units that can be used to develop stimuli-responsive materials or other applications where al arge molecular rearrangement and changes in the magnetic and photoluminescence properties are desired upon stimulation.…”

Section: Discussionmentioning

confidence: 99%

“…Our data suggest that the only noticeable requirement to trigger the conformational switching to the vase state is the formation of at least one semiquinone radical anion wall flap. We hypothesize at this stage, that electrostatic interactions between the semiquinone radical anion and the nearby quinoxaline walls as well as solvation effects facilitate the vase formation besides possible macrocycle strain effects …”

Section: Discussionmentioning

confidence: 99%

Stimuli‐Responsive Resorcin[4]arene Cavitands: Toward Visible‐Light‐Activated Molecular Grippers

García‐López

Zalibera

Trapp

et al. 2020

Chemistry A European J

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Resorcin[4]arene cavitands, equipped with diverse quinone (Q) and [Ru(bpy)2dppz]2+ (bpy=2,2′‐bipyridine, dppz=dipyrido[3,2‐a:2′,3′‐c]phenazine) photosensitizing walls in different configurations, were synthesized. Upon visible‐light irradiation at 420 nm, electron transfer from the [Ru(bpy)2dppz]2+ to the Q generates the semiquinone (SQ) radical anion, triggering a large conformational switching from a flat kite to a vase with a cavity for the encapsulation of small guests, such as cyclohexane and heteroalicyclic derivatives, in CD3CN. Depending on the molecular design, the SQ radical anion can live for several minutes (≈10 min) and the vase can be generated in a secondary process without need for addition of a sacrificial electron donor to accumulate the SQ state. Switching can also be triggered by other stimuli, such as changes in solvent, host–guest complexation, and chemical and electrochemical processes. This comprehensive investigation benefits the development of stimuli‐responsive nanodevices, such as light‐activated molecular grippers.

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“…QxCav shows the ability to reversibly switch between two spatially well‐defined conformations: an expanded kite (C 2v symmetry) and a contracted vase (C 4v symmetry), according to the position of 1,4‐diazanaphtalene ‘flaps’, that can occupy either the equatorial or the axial positions, respectively (Figure ) . Interestingly, since all intermediate conformers are energetically disfavoured, only these two discrete forms exist . The energy barrier for a single flap interconversion has been estimated in 7.6 kcal mol −1 by DFT calculations .…”

Section: Introductionmentioning

confidence: 99%

“…[5] Interestingly, since all intermediate conformers are energetically disfavoured, only these two discrete forms exist. [6] The energy barrier for a single flap interconversion has been estimated in 7.6 kcal mol À 1 by DFT calculations. [7] The vase-kite interconversion has been extensively investigated in solution via different stimuli, such as pH, [8,9] temperature, [10] Zn 2 + coordination [11,12] and redox.…”

Section: Introductionmentioning

confidence: 99%

Mechanically‐Driven Vase–Kite Conformational Switch in Cavitand Cross‐Linked Polyurethanes

et al. 2020

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The eligibility of tetraquinoxaline cavitands (QxCav) as molecular grippers relies on their unique conformational mobility between a closed (vase) and an open (kite) form, triggered in solution by conventional stimuli like pH, temperature and ion concentration. In the present paper, the mechanochemical conformational switching of ad hoc functionalized QxCav covalently embedded in an elastomeric polydimethylsiloxane and in a more rigid polyurethane matrix is investigated. The rigid polymer matrix is more effective in converting mechanical force into a conformational switch at the molecular level, provided that all four quinoxaline wings are covalently connected to the polymer.

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Vase‐Kite Equilibrium of Resorcin[4]arene Cavitands Investigated Using Molecular Dynamics Simulations with Ball‐and‐Stick Local Elevation Umbrella Sampling

Cited by 3 publications

References 152 publications

Comprehensive Characterization of the Self‐Folding Cavitand Dynamics

Comprehensive Characterization of the Self‐Folding Cavitand Dynamics

Stimuli‐Responsive Resorcin[4]arene Cavitands: Toward Visible‐Light‐Activated Molecular Grippers

Mechanically‐Driven Vase–Kite Conformational Switch in Cavitand Cross‐Linked Polyurethanes

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