A pH‐Switchable Triple Hydrogen‐Bonding Motif

Coubrough, Heather M.; Balónová, Barbora; Pask, Christopher M.; Blight, Barry A.; Wilson, Andrew J.

doi:10.1002/open.201900338

Cited by 6 publications

(6 citation statements)

References 47 publications

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Section: Construction Methodsmentioning

confidence: 99%

“…With rational design, small molecules with a relatively high density of hydrogen bonds not only showed an improved recognition ability for self-sorting but could also show switchable selectivity under stimuli. 122 DNA strands have a high density of hydrogen bonds and can be easily modified onto colloidal objects. A self-sorting system based on complementary base pairing from DNA is a very special one, since not only the base units but also their sequences are critical for the recognition.…”

Section: Spatial Arrangementmentioning

confidence: 99%

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Self-sorting assembly of artificial building blocks

Liu

Jin

et al. 2022

Soft Matter

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Section: Construction Methodsmentioning

confidence: 99%

Section: Spatial Arrangementmentioning

confidence: 99%

Self-sorting assembly of artificial building blocks

Liu

Jin

et al. 2022

Soft Matter

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“…As a fundamental class of noncovalent interactions, complementary multiple H‐bonding interactions have been extensively used as supramolecular toolkits in a wide range of application fields from molecular self‐assembly systems to dynamic polymeric materials, [33–43] by taking advantages of their high association affinity, high directionality, diverse bonding modes, as well as the reversible H‐binding behavior upon various external stimuli including temperature, [44,45] pH, [46–48] redox, [49–51] light, [52–59] and so on. Nevertheless, comparing to the various sophisticated photo‐switchable molecular scale H‐bonded self‐assembly systems, [52–59] to the best of our knowledge, the photo‐switchable H‐bonded MSA systems have not been reported so far.…”

Section: Figurementioning

confidence: 99%

Photo‐Controlled Macroscopic Self‐Assembly Based on Photo‐Switchable Hetero‐Complementary Quadruple Hydrogen Bonds

Han

Duan

Chen

et al. 2021

Chemistry An Asian Journal

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A photo‐switchable hetero‐complementary quadruple H‐bonding array, which consists of an azobenzene‐derived ureidopyrimidinone (UPy) module (Azo‐UPy) and a nonphotoactive diamidonaphthyridine (DAN) derivative (Napy‐1), is constructed based on a reversible photo‐locking approach. Upon UV (390 nm)/Vis (460 nm) light irradiations, photo‐switchable quadruple H‐bonded dimerization between Azo‐UPy and Napy‐1 can be achieved with exhibiting 4.8×104‐fold differences in binding strength (ON/OFF ratios). Furthermore, smart polymeric gels with unique photo‐controlled macroscopic self‐assembly behavior can be fabricated by introducing such quadruple H‐bonding array as photo‐regulable noncovalent interfacial connections.

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“…The aromatic form of the pyridine‐PN series has an ADA hydrogen‐bonding base pair array, but this switches to DAA upon tautomerization (Figure 2b). Research into switchable hydrogen‐bonding faces has been gaining interest due to the ubiquitous nature of hydrogen‐bonding in both biological and supramolecular processes [23–25] . Access to a strongly hydrogen‐bonding heterocyclic core featuring switchable hydrogen‐bonding arrays suggests practical applications in sensors or molecular recognition.…”

Section: Introductionmentioning

confidence: 99%

Controlling Tautomerization in Pyridine‐Fused Phosphorus‐Nitrogen Heterocycles

McNeill

Karas

Bard

et al. 2022

Chemistry A European J

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Inclusion of a second nitrogen atom in the aromatic core of phosphorus‐nitrogen (PN) heterocycles results in unexpected tautomerization to a nonaromatic form. This tautomerization, initially observed in the solid state through X‐ray crystallography, is also explained by computational analysis. We prepared an electron deficient analogue (2 e) with a fluorine on the pyridine ring and showed that the weakly basic pyridine resisted tautomerization, providing key insights to why the transformation occurs. To study the difference in solution vs. solid‐state heterocycles, alkylated analogues that lock in the quinoidal tautomer were synthesized and their different 1H NMR and UV/Vis spectra studied. Ultimately, we determined that all heterocycles are the aromatic tautomer in solution and all but 2 e switch to the quinoidal tautomer in the solid state. Better understanding of this transformation and under what circumstances it occurs suggest future use in a switchable on/off hydrogen‐bond‐directed receptor that can be tuned for complementary hydrogen bonding.

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A pH‐Switchable Triple Hydrogen‐Bonding Motif

Cited by 6 publications

References 47 publications

Self-sorting assembly of artificial building blocks

Self-sorting assembly of artificial building blocks

Photo‐Controlled Macroscopic Self‐Assembly Based on Photo‐Switchable Hetero‐Complementary Quadruple Hydrogen Bonds

Controlling Tautomerization in Pyridine‐Fused Phosphorus‐Nitrogen Heterocycles

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