Ruthenophanes: Evaluating Cation−π Interactions in [Ru(η6-C16H12R4)(NH3)3]2+/3+ Complexes. A Computational Insight

Caramori, Giovanni F.; Garcia, Leone C.; Andrada, Diego M.; Frenking, Gernot

doi:10.1021/om500203u

Cited by 17 publications

(20 citation statements)

References 92 publications

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“…Understanding the physical origins of noncovalent interactions is an important task for EDA methods. GKS‐EDA and LMO‐EDA have been used to analyze various noncovalent interactions, including hydrogen bond, halogen bond, chalcogen bond, tetrel bond, pnicogen bond, π‐π stacking, cation⋯π, anion⋯π, XH⋯π (X = C, N, or O), and cooperative effects . Here we illustrate several representative applications for hydrogen bonds, halogen bonds and π‐π stacking, which show the diversity of physical origins in various noncovalent interactions.…”

Section: Applicationsmentioning

confidence: 99%

Generalized Kohn‐Sham energy decomposition analysis and its applications

Tang

2020

WIREs Comput Mol Sci

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Energy decomposition analysis (EDA) methods bridge the gap between electronic structure calculations and conceptual interpretations of molecular interactions. The recently developed generalized Kohn‐Sham EDA (GKS‐EDA) can be used to examine various molecular interactions with restricted, restricted open‐shell or unrestricted Kohn‐Sham orbitals. It supports different density functional theory functionals, including LDA, GGA, hybrid, double hybrid, range‐separated, and dispersion‐corrected density functionals. GKS‐EDA can be also efficiently applied for intermolecular interactions in solutions and intramolecular interactions when used in combination with an implicit solvation model and appropriate fragmentation method. GKS‐EDA helps us not only to understand but also to predict the structures and properties of various interacting systems within a unified approach. This article is categorized under: Electronic Structure Theory > Ab Initio Electronic Structure Methods Molecular and Statistical Mechanics > Molecular Interactions Electronic Structure Theory > Density Functional Theory Structure and Mechanism > Molecular Structures

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Section: Applicationsmentioning

confidence: 99%

Generalized Kohn‐Sham energy decomposition analysis and its applications

Tang

2020

WIREs Comput Mol Sci

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“…is considered a poor R group to host anions, [20] and s-triazine (TRZ) lies on the borderline between being able to interact with both cations and anions, [107][108][109] cyanuric acid (CA), on the other hand, is a very good anion receptor due to its π-acidic nature, and in fact has proved to be so. [20,23,40] Despite this fact, BZN and TRZ are known as good π-systems to form metal complexes, and such metal-R complexes have proved to be effective in tuning the aromatic system to become electron deficient, [24,60,61,110] hence BZN and TRZ should be considered good candidates to form novel π-metallated cylindrophane systems ideally including NH þ 2 groups in the bridges to coordinate anions. Figure 5, correlating H to HG in the H!…”

Section: Structural Parameters and Geometry Analysesmentioning

confidence: 99%

“…Attention has increasingly been given to receptors capable of selectively recognizing and coordinating fluoride, [58,59] highlighting the challenges intrinsic to anion coordination in aqueous systems, often involving the synthesis of metallated receptors that interact strongly with anions. [25,60,61]…”

Section: Introductionmentioning

confidence: 99%

“…Ultimately, numerous anion‐ π based studies have led to the development of novel supramolecular systems as well as advances in catalysis, medicinal chemistry, and biochemistry, all of which support the continued drive to gain insight into this specific NCI . Attention has increasingly been given to receptors capable of selectively recognizing and coordinating fluoride, highlighting the challenges intrinsic to anion coordination in aqueous systems, often involving the synthesis of metallated receptors that interact strongly with anions …”

Section: Introductionmentioning

confidence: 99%

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In Silico Design of Cylindrophanes: The Role of Functional Groups in a Fluoride Selective Host

et al. 2020

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Molecular recognition is the key driver in the formation of supramolecular complexes, enabling the selective encapsulation of specific guests. Here, we explore the delicate balance between different energetic terms in the formation of an efficient host for fluoride anions based on a cylindrophane structure, which can be achieved by the incorporation of ligand sites into a cyanuric acid based cyclophane framework, resulting a close proximity between the ammonium hydrogens and the anion. This study describes the character and contribution of different energetic and repulsive terms that favor the efficient inclusion of fluoride. Our findings are useful for further rational design and synthesis of efficient and highly selective fluoride hosts, which have been generally less well described than complexing agents for other halides.

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“…Furthermore, the cation‐π interaction can be modified by adjusting complementary ligands, as studied in the series of functionalized ruthenophanes of the type [Ru([2.2] paracyclophane)(NH 3 ) 3 ] 2+/3+. As a result, the use of electron‐withdrawing groups in the π‐ring, such as ‐F and ‐CN, leads to a significant increase in the total ruthenium‐arene bonding, while a decrease of the interaction is observed when the quantity of the electron‐donor group ‐CH 3 is diminished …”

Section: Theoretical Backgroundmentioning

confidence: 99%

Advances in bonding and properties of inorganic systems from relativistic calculations in Latin America

MacLeod‐Carey

Caramori

Guajardo‐Maturana

et al. 2018

Int J of Quantum Chemistry

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The inclusion of relativistic effects to understand chemical structures and related properties brings to the scientific community challenging study cases, showing the rich diversity of chemical behavior of the different elements along the periodic table. The results highlighted here represent applications of relativistic methodologies to study the nature of bonding and a prediction of optical and magnetic properties of meaningful chemical entities containing heavy atoms, all made in Latin America. The good agreement between calculated and experimental observables in many molecular and cluster‐like systems ratifies that relativistic methods are appropriate to describe these entities realistically. We expect to enhance our knowledge in these methodologies, currently included in doctoral programs in our region.

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Ruthenophanes: Evaluating Cation−π Interactions in [Ru(η⁶-C₁₆H₁₂R₄)(NH₃)₃]^2+/3+ Complexes. A Computational Insight

Cited by 17 publications

References 92 publications

Generalized Kohn‐Sham energy decomposition analysis and its applications

Generalized Kohn‐Sham energy decomposition analysis and its applications

In Silico Design of Cylindrophanes: The Role of Functional Groups in a Fluoride Selective Host

Advances in bonding and properties of inorganic systems from relativistic calculations in Latin America

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