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Abstract
Cooperative effects are known to strongly affect the geometrical, energetic and vibrational properties of hydrogen bonded systems. In particular, such effects strongly favor molecular arrangements where each molecule is simultaneously a donor and an acceptor of hydrogen bonds (HBs), regardless of the chemical nature of the monomer subunits. In the particular case of water systems, it has been shown that the more a molecule is a proton donor in HBs, the more the HBs where it is a proton acceptor are reinforced. Such a property could be at the origin of the equilibrium between the two species of hydrogen bonded water molecules in liquid water (one with a strong hydrogen bonding character, and one with a weaker one), as experimentally evidenced and as a molecular dynamic study of the small (H2O)24 cluster clearly suggests.
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