Matthew Guarino scite author profile

A computational analysis of the charge distribution in halomethanes and their heavy analogues (MH(4-n)X(n): M = C, Si, Ge, Sn, Pb; X = F, Cl, Br, I) as a function of n uncovers a previously unidentified saturation limit for fluorides when M ≠ C. We examine the electron densities obtained at the CCSD, MP2(full), B3PW91, and HF levels of theory for 80 molecules for four different basis sets. A previously observed substituent independent charge at F in fluoromethanes is shown to be a move toward saturation that is restricted by the low polarizability of C. This limitation fades into irrelevance for the more polarizable M central atoms such that a genuine F saturation is realized in those cases. A conceptual model leads to a function of the form [q(M(n')) - q(M(n))] = a[χ(A') - χ(A)] + b that links the electronegativities (χ) of incoming and leaving atoms (e.g., A' = X and A = H for the halogenation of MH(4-n)X(n)) and the associated charge shift at M. We show that the phenomenon in which the charge at the central atom, q(M), is itself independent of n (e.g., at carbon in CH(4-n)Br(n)) is best described as an "M-neutral substitution"--not saturation. Implications of the observed X saturation and M-neutral substitutions for larger organic and inorganic halogenated molecules and polymeric materials are identified.

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Structure, bonding, relativistic effects, and dispersion in the group 12 dihalide (MX2)3 clusters, with lessons from the extended solids

Donald

Stewart

Guarino

2015

Struct Chem

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The prediction of crystal structures for inorganic solids remains a challenge at the frontier of materials science. We examine the relationship between the group 12 dihalide monomers, small oligomers (in particular the trimers), and the extended solids. The clusters are investigated at density functional B3PW91 and MP2 computational levels and at the M06-2X, B97D3, and CCSD(T) levels for the first time for special cases where dispersion is important. Significant patterns in the bonding preferences in the dimers and extended solids of these systems are known to reflect the rigidity of the linear monomers. The trimers evolve typically as one-dimensional extensions of the dimers, but the HgX 2 systems are different: They form loosely bound clusters with a few competitive geometries emerging that imply several potential directions for continued and more strongly bond higher-order clusters. The very weak intermolecular interactions in the Hg systems appear only when relativistic effects are turned on. Otherwise, they behave precisely like their Zn and Cd analogues. The HgF 2 trimers, which have not been considered before, are examined in detail as well. These trimers-especially the fluorides-are somewhat more polar than the isolated monomers and dimers, and we find evidence for a gradual switch to the ionic bonding regime in the HgF 2 clusters on the way to the fluorite extended solid structure. Differences between geometrical preferences obtained at the MP2 versus the B3PW91 levels for the (HgX 2 ) 3 clusters demonstrate the importance of dispersion interactions in the bonding. Successes are reported for other density functional methods that directly address dispersion.

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Cancer; Pathophysiology and Stress Modulation (Cancer, Therapeutic Interventions)

Scarpetti

Guarino²,

Baima³

2022

Seminars in Oncology Nursing

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Matthew Guarino

Charge Saturation and Neutral Substitutions in Halomethanes and Their Group 14 Analogues

Structure, bonding, relativistic effects, and dispersion in the group 12 dihalide (MX2)3 clusters, with lessons from the extended solids

Cancer; Pathophysiology and Stress Modulation (Cancer, Therapeutic Interventions)

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