Lucia Trevisan scite author profile

Lucia Trevisan

3Publications

39Citation Statements Received

112Citation Statements Given

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108

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University of Cambridge, University of Padua

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Quantitative Measurement of Cooperativity in H-Bonded Networks

2022

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Cooperative H-bonding interactions are a feature of supramolecular networks involving alcohols. A family of phenol oligomers, in which the hydroxyl groups form intramolecular Hbonds, was used to investigate this phenomenon. Chains of intramolecular H-bonds were characterized using nuclear magnetic resonance (NMR) spectroscopy in solution and X-ray crystallography in the solid state. The phenol oligomers were used to make quantitative measurements of the effects of the intramolecular interactions on the strengths of intermolecular H-bonding interactions between the H-bond donor on the end of the chain and a series of H-bond acceptors. Intramolecular H-bonding interactions in the chain increase the strength of a single intermolecular H-bond between the terminal phenol and quinuclidine by up to 14 kJ mol −1 in the n-octane solution. Although the magnitude of the effect increases with the length of the H-bonded chain, the first intramolecular H-bond has a much larger effect than subsequent interactions. H-bond cooperativity is dominated by pairwise interactions between nearest neighbors, and longer range effects are negligible. The results were used to develop a simple model for cooperativity in H-bond networks using an empirical parameter κ to quantify the sensitivity of the H-bond properties of a functional group to polarization. The value of κ measured in these systems was 0.33, which means that formation of the first H-bond increases the polarity of the next H-bond donor in the chain by 33%. The cumulative cooperative effect in longer H-bonded chains reaches an asymptotic value, which corresponds to a maximum increase in the polarity of the terminal H-bond donor of 50%.

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Toward supramolecular nanozymes for the photocatalytic activation of Pt(iv) anticancer prodrugs

et al. 2020

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Redox switching of an artificial transmembrane signal transduction system

2021

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Lucia Trevisan

Quantitative Measurement of Cooperativity in H-Bonded Networks

Toward supramolecular nanozymes for the photocatalytic activation of Pt(iv) anticancer prodrugs

Redox switching of an artificial transmembrane signal transduction system

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