S. Califano scite author profile

In this paper we compare the polarization response given by two different chemical potential equalization schemes to be applied to molecular dynamics simulations: the standard fluctuating point charge model (FQ) and the atom–atom charge transfer model (AACT). We have tested the transferability of FQ and AACT parameters, fitted to the polarizability of small size alkanes and polyenes, to large size homologues. We show that the FQ scheme is not adequate for the n-alkanes as it strongly overestimates the polarizability tensor components as the number of carbon atoms increases. The FQ approach has been found more predictive for highly conjugated systems like polyenes, although still unsatisfactory. The AACT parameters tuned on ethane are instead perfectly transferable to alkanes of any length and conformation. The AACT scheme satisfactorily reproduces the polarization response also for highly conjugated systems.

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Glycerol condensed phases Part II.A molecular dynamics study of the conformational structure and hydrogen bonding

Chelli¹,

Procacci²,

Cardini³

et al. 1999

Phys. Chem. Chem. Phys.

136

133

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An analysis of the conformational properties and hydrogen bonding in the condensed phases of glycerol is reported using the same model as adopted in Part I (Phys. Chem. Chem. Phys., 1999, 1, 871). Structural properties of the liquid and glassy states are analyzed in relation to the molecular backbone conformation of the glycerol molecule. The e †ects of hydrogen bonding and of temperature on the conformational distribution are analyzed. The structural and dynamical properties of hydrogen bonding in glycerol are also investigated. The results are consistent with available experimental observations and clarify many important and interrelated aspects of the microscopic structure of liquid, glassy and crystalline phases of glycerol.

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Glycerol condensed phases Part I. A molecular dynamics study

Chelli¹,

Procacci²,

Cardini³

et al. 1999

Phys. Chem. Chem. Phys.

123

132

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Using a model potential function we have performed a molecular dynamics simulation of several static and dynamical properties of glycerol in the crystal, glass and liquid phases. Comparison with available experimental data shows an excellent agreeent and proves the validity of the potential model used. For the calculation of the molar speciÐc heat of the liquid and of the glass we have developed a theoretical approach which takes into account the contributions of the conformational structure energy and of the vibrational energy computed using the BoseÈEinstein statistics.

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Transient absorption and vibrational relaxation dynamics of the lowest excited singlet state of pyrene in solution

Foggi¹,

Pettini²,

Sánta³

et al. 1995

J. Phys. Chem.

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S. Califano

Lattice Dynamics of Molecular Crystals

Electrical response in chemical potential equalization schemes

Glycerol condensed phases Part II.A molecular dynamics study of the conformational structure and hydrogen bonding

Glycerol condensed phases Part I. A molecular dynamics study

Transient absorption and vibrational relaxation dynamics of the lowest excited singlet state of pyrene in solution

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