Alhadji Malloum scite author profile

A hydrogen bond network in ammonia clusters plays a key role in understanding the properties of species embedded in ammonia. This network is dictated by the structures of neutral ammonia clusters. In this work, structures of neutral ammonia clusters (NH3)n(=2-10) have been studied at M06-2X/6-31++G(d,p) and MP2/6-31++g(d,p) levels of theory. The analysis of the relative stabilities of various hydrogen bond types has also been studied and vibrational spectroscopy of the ammonia pentamer and decamer is investigated. We noted that M06-2X provides lower electronic energies, greater binding energies and higher structural resolution than MP2. We also noted that at the M06-2X level of theory, the binding energy converges to the experimental vaporization enthalpy faster than that at the MP2 level of theory. As a result, it is found that the M06-2X functional could be more suitable than the MP2 ab initio method in the description of structures and energies of ammonia clusters. However, we found that the electronic energy differences obtained at both levels of computation follow a linear relation with n (number of ammonia molecules in a cluster). As far as the structures of ammonia clusters are concerned, we proposed new "significant" isomers that have not been reported previously. The most remarkable is the global minimum electronic energy structure of the ammonia hexamer, which has an inversion centre and confirms experimental observation. Moreover, we reported the relative stabilities of neutral ammonia clusters for temperatures ranging from 25 to 400 K. The stability of isomers changes with the increase of the temperature. As a result, the branched and less bonded isomers are the most favored at high temperatures and disfavored at low temperatures, while compact and symmetric isomers dominate the population of clusters at low temperatures. In fine, from this work, the global minimum energy structures of ammonia clusters are known for the first time at a given temperature (T ∼ 0-400 K) and at a reliable computational level of theory.

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Structures, relative stability and binding energies of neutral water clusters, (H₂O)_2–30

Malloum

Fifen

Dhaouadi

et al. 2019

New J. Chem.

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Determination of the absolute solvation free energy and enthalpy of the proton in solutions

Malloum

Fifen

Conradie

2021

Journal of Molecular Liquids

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Alhadji Malloum

Dyes adsorption from aqueous media through the nanotechnology: A review

Structures and relative stabilities of ammonia clusters at different temperatures: DFT vs. ab initio

Structures, relative stability and binding energies of neutral water clusters, (H₂O)_2–30

Determination of the absolute solvation free energy and enthalpy of the proton in solutions

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Alhadji Malloum

Dyes adsorption from aqueous media through the nanotechnology: A review

Structures and relative stabilities of ammonia clusters at different temperatures: DFT vs. ab initio

Structures, relative stability and binding energies of neutral water clusters, (H2O)2–30

Determination of the absolute solvation free energy and enthalpy of the proton in solutions

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Structures, relative stability and binding energies of neutral water clusters, (H₂O)_2–30