Fabienne Bessac scite author profile

Geometries and bond dissociation energies of the complexes Cl(3)B[bond]NH(3) and F(3)B[bond]NH(3) have been calculated using DFT (PW91) and ab initio methods at the MP2 and CCSD(T) levels using large basis sets. The calculations give a larger bond dissociation energy for Cl(3)B[bond]NH(3) than for F(3)B[bond]NH(3). Calculations of the deformation energy of the bonded fragments reveal that the distortion of BCl(3) and BF(3) from the equilibrium geometry to the pyramidal form in the complexes requires nearly the same energy. The higher Lewis acid strength of BCl(3) in X(3)B[bond]H(3) compared with BF(3) is an intrinsic property of the molecule. The energy partitioning analysis of Cl(3)B[bond]NH(3) and F(3)B[bond]NH(3) shows that the stronger bond in the former complex comes from enhanced covalent interactions between the Lewis acid and the Lewis base which can be explained with the energetically lower lying LUMO of BCl(3).

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Chemical Bonding in Phosphane and Amine Complexes of Main Group Elements and Transition Metals

Bessac

Frenking

2006

Inorg. Chem.

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The geometries and bond dissociation energies of the main group complexes X3B-NX3, X3B-PX3, X3Al-NX3, and X3Al-PX3 (X = H, Me, Cl) and the transition metal complexes (CO)5M-NX3 and (CO)5M-PX3 (M = Cr, Mo, W) have been calculated using gradient-corrected density functional theory at the BP86/TZ2P level. The nature of the donor-acceptor bonds was investigated with an energy decomposition analysis. It is found that the bond dissociation energy is not a good measure for the intrinsic strength of Lewis acidity and basicity because the preparation energies of the fragments may significantly change the trend of the bond strength. The interaction energies between the frozen fragments of the borane complexes are in most cases larger than the interaction energies of the alane complexes. The bond dissociation energy of the alane complexes is sometimes higher than that of the borane analogues because the energy for distorting the planar equilibrium geometry of BX3 to the pyramidal from in the complexes is higher than for AlX3. Inspection of the three energy terms, DeltaE(Pauli), DeltaE(orb), and DeltaE(elstat), shows that all three of them must be considered to understand the trends of the Lewis acid and base strength. The orbital term of the donor-acceptor bonds with the Lewis bases NCl3 and PCl3 have a higher pi character than the bonds of EH3 and EMe3, but NCl3 and PCl3 are weaker Lewis bases because the lone-pair orbital at the donor atoms N and P has a high percent s character. The calculated DeltaE(int) values suggest that the trends of the intrinsic Lewis bases' strengths in the main-group complexes with BX3 and AlX3 are NMe3 > NH3 > NCl3 and PMe3 > PH3 > PCl3. The transition metal complexes exhibit a somewhat different order with NH3 > NMe3 > NCl3 and PMe3 > PH3 > PCl3. The slightly weaker bonding of NMe3 than that of NH3 comes from stronger Pauli repulsion. The bond length does not always correlate with the bond dissociation energy, nor does it always correlate with the intrinsic interaction energy.

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Prediction of the Fate of Organic Compounds in the Environment From Their Molecular Properties: A Review

Mamy¹,

Patureau²,

Barriuso³

et al. 2014

Critical Reviews in Environmental Science and Technology

124

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A comprehensive review of quantitative structure-activity relationships (QSAR) allowing the prediction of the fate of organic compounds in the environment from their molecular properties was done. The considered processes were water dissolution, dissociation, volatilization, retention on soils and sediments (mainly adsorption and desorption), degradation (biotic and abiotic), and absorption by plants. A total of 790 equations involving 686 structural molecular descriptors are reported to estimate 90 environmental parameters related to these processes. A significant number of equations was found for dissociation process (pKa), water dissolution or hydrophobic behavior (especially through the KOW parameter), adsorption to soils and biodegradation. A lack of QSAR was observed to estimate desorption or potential of transfer to water. Among the 686 molecular descriptors, five were found to be dominant in the 790 collected equations and the most generic ones: four quantum-chemical descriptors, the energy of the highest occupied molecular orbital (EHOMO) and the energy of the lowest unoccupied molecular orbital (ELUMO), polarizability (α) and dipole moment (μ), and one constitutional descriptor, the molecular weight. Keeping in mind that the combination of descriptors belonging to different categories (constitutional, topological, quantum-chemical) led to improve QSAR performances, these descriptors should be considered for the development of new QSAR, for further predictions of environmental parameters. This review also allows finding of the relevant QSAR equations to predict the fate of a wide diversity of compounds in the environment.

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Fabienne Bessac

Why Is BCl₃ a Stronger Lewis Acid with Respect to Strong Bases than BF₃?^,

Chemical Bonding in Phosphane and Amine Complexes of Main Group Elements and Transition Metals

Prediction of the Fate of Organic Compounds in the Environment From Their Molecular Properties: A Review

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Fabienne Bessac

Why Is BCl3 a Stronger Lewis Acid with Respect to Strong Bases than BF3?,

Chemical Bonding in Phosphane and Amine Complexes of Main Group Elements and Transition Metals

Prediction of the Fate of Organic Compounds in the Environment From Their Molecular Properties: A Review

Contact Info

Product

Resources

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Why Is BCl₃ a Stronger Lewis Acid with Respect to Strong Bases than BF₃?^,